HomeMy WebLinkAbout1 LEGOLAND DR; ; CB050365; PermitCity of Carlsbad
1635 Faraday Av Carlsbad, CA 92008
Commercial/lndustrial Permit Permit No: CB050365
\ Building Inspection Request Line (760) 602-2725
Job Address:
Permit Type: TI Sub Type: COMM
Parcel No: 2111000900 Lot #: 0 Status: ISSUED
Valuation: $608,500.00 Construction Type: NEW Applied: 02/08/2005
Occupancy Group: Reference #: Entered By: SB
Project Title: LEGOLAND KNIGHTS TOURNAMENT Plan Approved: 0311 512005
ATTRACTION. FOUNDATION/ELEC AND SHADE STRUCTURE Issued: 03/15/2005
1 LEGOLAND DR CBAD
Inspect Area: Plan Check#:
Applicant: Owner:
LEGOLAND CALIFORNIA INC cLF> LEGOLAND ESTATES AG
AG
LEGOLAND CALIFORNIA INC <LF> LEGOLAND ESTATES
1 LEGOLAND DR
CARLSBAD CA 92008 1 LEGOLAND DR
CARLSBAD CA 92008
Building Permit
Add'l Building Permit Fee
Plan Check
Add'l Plan Check Fee
Plan Check Discount
Strong Motion Fee
Park Fee
LFM Fee
Bridge Fee
BTD #2 Fee BTD #3 Fee
Renewal Fee
Add'l Renewal Fee
Other Building Fee
Pot. Water Con. Fee
Meter Size
Add'l Pot. Water Con. Fee
Recl. Water Con. Fee
$2,063.05
$0.00 $1,340.98
$0.00
$0.00
$0.00 $0.00
$0.00 $0.00
$0.00
$0.00 $0.00
$0.00
$0.00
$0.00
$0.00
$1 27.79
Meter Size
Add'l Recl. Water Con. Fee
Meter Fee
SDCWA Fee
CFD Payoff Fee PFF
PFF (CFD Fund)
License Tax
License Tax (CFD Fund)
Traffic Impact Fee
Traffic Impact (CFD Fund)
PLUMBING TOTAL
ELECTRICAL TOTAL
MECHANICAL TOTAL
Master Drainage Fee
Sewer Fee
Redev Parking Fee
Additional Fees
TOTAL PERMIT FEES
$0.00 $0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$60.00
$0.00 $0.00
$0.00
$0.00
$0.00
$3,591.82
Total Fees: $3,591.82 Total Payments To Date: $0.00 Balance Due: $3,591.82
3869 93/15/05 -3002 03. B LDINGPLANS CGP ZIN STORAGE - ATTACHED 3809 03.mv05 0002 01
CGF
Date: Clearance: r NOTICE: Please take NOTICE that approval of your project includes the "Imposition" of fees, dedications, reservations, or other exactions hereafter collectively
referred to as "feeslexactions." You have 90 days from the date this permit was issued to protest imposition of these feeslexactions. If you protest them, you must
fdlow the protest procedures set forth in Government Code Section 66020(a), and file the protest and any other required information with the City Manager for
processing in accordance with Carlsbad Municipal Code Section 3.32.030. Failure to timely fdlow that procedure will bar any subsequent legal action to attack,
review, set aside, void, or annul their imposition.
You are hereby FURTHER NOTIFIED that your right to protest the specified feeslexactions DOES NOT APPLY to water and sewer connection fees and capacity
PERMIT APPLICATION
CITY OF CARLSBAD BUILDING DEPARTMENT
1635 Faraday Ave., Carlsbad, CA 92008
IFOR OFFICE USE ONLY ,
EST. VAL.
Plan Ck. Deposit
Validated B
Date
I
(Sec. 7031.5 Business and Professions
issuance, also requires the applicant for such permit to file a signed statement that he is licensed pursuant to the provisions of the Contractor's License Law [Chapter 9, cornmending with Section 7000 of Division 3 of the Business and Professions Code] or that he is exempt therefrom, and the basis for the alleged
exemption. Any violation of Section 7031.5 by any applicant for a permit subjects the applicant to a civil penalty of not more than five hundred dollars [C5001).
Name Address City Statelzip Telephone #
State License # License Class City Business License #
Telephone State/Zip Designer Name Address city
0 of the work for which this permit is issued.
0 issued. My worker's compensation insurance carrier and policy number are:
Insurance Company Policy No. Expiration Date
(THIS SECTION NEED NOT BE COMPLETED IF THE PERMIT IS FOR ONE HUNDRED DOLLARS [$lo01 OR LESS)
0 CERTIFICATE OF EXEMPTION: I certify that in the performance of the work for which this permit is issued, I shall not employ any person in any manner so as
to become subject to the Workers' Compensation Laws of California.
WARNING: Failure to secure workers' compensation coverage is unlawful, and shall subject an employer to criminal penalties and civil fines up to one hundred
thousand dollars ($100,00OL in addition to the cost of compensation, damages as provided for in Section 3706 of the Labor code, interest and attorney's fees.
SIGNATURE DATE
I hereby affirm that I am exempt from the Contractor's License Law for the following reason:
0 I, as owner of the property or my employees with wages as their sole compensation. will do the work and the structure is not intended or offered for sale (Sec. 7044, Business and Professions Code: The Contractor's License Law does not apply to an owner of property who builds or improves thereon, and who does
such work himself or through his own employees, provided that such improvements are not intended or offered for sale. If, however, the building or improvement is
sold within one year of completion, the owner-builder will have the burden of proving that he did not build or improve for the purpose of sale).
I, as owner of the property. am exclusively contracting with licensed contractors to construct the project (Sec. 7044, Business and Professions Code: The
ontractor's License Law does not apply to an owner of property who builds or improves thereon, and contracts for such projects with contractor(s) licensed
I have and will maintain a certificate of consent to self-insure for workers' compensation as provided by Section 3700 of the Labor Code, for the performance
I have and will maintain workers' compensation, as required by Section 3700 of the Labor Code, for the performance of the work for which this permit is
EIII-WIUXk
pursuant to the Contractor's License Law).
0
1.
2.
3.
Business and Professions Code for this reason:
Y
I am exempt under Section
I personally plan to provide the major labor and materials for construction of the proposed property improvement. 0 YES UNO
I (have / have not) signed an application for a building permit for the proposed work.
I have contracted with the following person (firm) to provide the proposed construction (include name I address I phone number I contractors license number):
4. I plan to provide portions of the work, but I have hired the following person to coordinate, supervise and provide the major work (include name I address I phone
IF ANY OF THE ANSWERS ARE YES, A FINAL CERTIFICATE OF OCCUPANCY MAY NOT BE ISSUED UNLESS THE APPLICANT HAS MET OR IS MEETING THE
REQUIREMENTS OF THE OFFICE OF EMERGENCY SERVICES AND THE AIR POLLUTION CONTROL DISTRICT.
LENDER'S NAME
City ordinances and State laws relating to building construction. I hereby authorize representatives of the Cit) of Carlsbad to enter upon the above mentioned property for inspection purposes. I ALSO AGREE TO SAVE, INDEMNIFY AND KEEP HARMLESS THE CITY OF CARLSBAD AGAINST ALL LIABILITIES,
JUDGMENTS, COSTS AND EXPENSES WHICH MAY IN ANY WAY ACCRUE AGAINST SAID CITY IN CONSEQUENCE OF THE GRANTING OF THIS PERMIT.
OSHA: An OSHA permit is required for excavations over 5'0" deep and demolition or construction of structures over 3 stories in height.
EXPIRATION: Every permit
authorized by such permit is not commenced with
at any time after the work is commenced f
ovisions of this Code shall expire by limitation and become null and void if the building or work
te of such permit or if the building or work authorized by such permit is suspended or abandoned
DATE ?/T /6( tion 106.4.4 Uniform Building Code). 9 APPLICANT'S SIGNATURE
City of Carlsbad Bldg Inspection Request
For: 05/20/2005
Permit# C6050365 Inspector Assignment: PD
Title: LEGOLAND KNIGHTS TOURNAMENT
Description: ATTRACTION. FOUNDATION/ELEC AND SHADE
STRUCTURE
Type: TI Phone: 85851 87233
Job Address: 1 LEGOLANDDR
Suite: Lot 0
Location:
OWNER LEGOLAND CALIFORNIA INC <LF> LEGOLAND ESTATES AG
Owner: LEGOLAND CALIFORNIA INC <LF> LEGOLAND ESTATES AG
Remarks:
Total Time: Requested By: JOHN
CD Description
Entered By: CHRISTINE
Act Comment f 19 Final Structural
29 Final Plumbing
t 39 Final Electrical + 49 Final Mechanical
Associated PCRs/CVs
Inspection Historv
Date Description Act lnsp Comments
PCR00224 APPROVED ELECTRICAL PLAN FOR COASTER;
0511 112005 89
05/05/2005 14
05/03/2005 15
04/25/2005 11
04/25/2005 12
04/25/2005 14
04/22/2005 34
04/04/2005 11
03/29/2005 11
03/23/2005 12
03/23/2005 12
03/23/2005 34
03/23/2005 61
03/23/2005 66
03/22/2005 61
0311 612005 12
Final Combo
Frame/Steel/BoltingfWelding
RoofIReroof
Ftg/Foundation/Piers
SteelIBond Beam
Frame/Steel/Bolting/Welding
Rough Electric
FtglFoundationlPiers
FtglFoundationlPiers
SteellBond Beam
SteellBond Beam
Rough Electric
Footing
Grout
Footing
SteellBond Beam
PA PD
AP PD
AP TP
PA PD
PA PD
WC PD
AP PD
AP PD
AP PD
AP TP
AP TP
AP TP
WC TP
AP TP
PA TP
AP PD
TEMP. OCCUPANCY
PANELS, TRANS.,
SLAB
WALLS, PILASTERS
2 LITE POLE BASE FTNS
CLMN. BASE
LITE POLE BASE FTNS BONDED
PIP HIGH WALL
FOOT1 NG S
City of Carlsbad Bldg Inspection Request
For: 05/04/2005
Permit# CB050365 Inspector Assignment: PD
Title: LEGOLAND KNIGHTS TOURNAMENT
Description: ATTRACTION. FOUNDATION/ELEC AND SHADE
STRUCTURE
Type: TI Sub Type: COMM Phone: 8585187233 &kP Job Address: 1 LEGOLANDDR
Suite: Lot 0
Locat ion : lnspecto .
APPLICANT LEGOLAND CALIFORNIA INC cLF> LEGOLAND ESTATES AG
Owner: LEGOLAND CALIFORNIA INC <LF> LEGOLAND ESTATES AG
Remarks:
Total Time: Requested By: JOHN
CD Description Act Comment
Entered By: CHRISTINE
15 Roof/Reroof 4@
Associated PCRs/CVs
PCR00224 APPROVED ELECTRICAL PLAN FOR COASTER;
Date
04/25/2005
04/25/2005
04/25/2005
04/22/2005
04/04/2005
03/29/2005
03/23/2005
03/23/2005
03/23/2005
03/23/2005
03/23/2005
03/22/2005
0311 612005
Inspection Histon,
Description
11 FtgIFoundatiodPiers
12 SteeVBond Beam
14 Frame/Steel/Bolting/Welding
34 Rough Electric
11 FtglFoundatiodPiers
11 Ftg/Foundation/Piers
12 SteelIBond Beam
12 SteeVBond Beam
34 Rough Electric
61 Footing
66 Grout
61 Footing
12 SteelIBond Beam
Act lnsp Comments
PA PD
PA PD
WC PD
AP PD PANELS, TRANS.,
AP PD SLAB
AP PD WALLS, PILASTERS
AP TP 2 LITE POLE BASE FTNS
AP TP CLMN.BASE
AP TP LITE POLE BASE FTNS BONDED
WC TP
AP TP PIPHIGH WALL
PA TP
AP PD FOOTINGS
83/15/2805 14: 35 7685313239 PaGE 82/85
+-- I?
~ . --
- . . . - . - . . . . . . . . . . . . . . . . t -.__, _... - .-.. .. -
EsGiI Corporation .
In Partnership with ~overnrnent for Building Safety
DATE: March 9,2005
JURISDICTION: Carlsbad
<JURI$
0 PLAN REVIEWER
0 FILE PLAN CHECK NO.: 05-365 SET: II
PROJECT ADDRESS: 1 Legoland Dr.
PROJECT NAME: Knight’s Tournament Attraction; Legoland
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0
0
0
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0
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The plans transmitted herewith have been corrected where necessary and substantially comply
with the jurisdiction’s building codes.
The plans transmitted herewith will substantially comply with the jurisdiction’s building codes
when minor deficiencies identified below are resolved and checked by building department staff.
The plans transmitted herewith have significant deficiencies identified on the enclosed check list
and should be corrected and resubmitted c for a complete recheck.
The check list transmitted herewith is for your information. The plans are being held at Esgil
Corporation until corrected plans are submitted for recheck.
The applicant’s copy of the check list is enclosed for the jurisdiction to forward to the applicant
contact person.
The applicant’s copy of the check list has been sent to:
Esgil Corporation staff did not advise the applicant that the plan check has been completed.
Esgil Corporation staff did advise the applicant that the plan check has been completed.
Person contacted: Telephone #:
Date contacted: (by: 1 Fax #: 760-91 8-5469
Mail Telephone Fax In Person
REMARKS: Per California State law, the “L” sheets must be preparedkigned by a licensed
architect (not a landscape architect).
By: Kurt Culver Enclosures:
Esgil Corporation 0 GA Mi3 0 EJ 0 PC 3/3/05 trnsmtl.dot
932d Chesapeake Drive, Suite 208 San Diego, California 92123 + (858) 560-1468 + Fax (858) 560-1576
EsGil Corporation
In Purtncrship with Government for Buiclding Sufcty
DATE: Febnrary 16,2005
JURISDICTION: Carlsbad
PLAN CHECK NO.: 05-365
0 APPLICANT
-vi Ew ER
0 FILE
SET: I
PROJECT ADDRESS: 1 Legoland Dr.
PROJECT NAME: Knight’s Tournament Attraction; Legoland
0
0
0
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€4
0
The plans transmitted herewith have been corrected where necessary and substantially comply
with the jurisdiction’s building codes.
The plans transmitted herewith will substantially comply with the jurisdiction’s building codes
when minor deficiencies identified below are resolved and checked by building department staff.
The plans transmitted herewith have significant deficiencies identified on the enclosed check list
and should be corrected and resubmitted for a complete recheck.
The check list transmitted herewith is for your information. The plans are being held at Esgil
Corporation until corrected plans are submitted for recheck.
The applicant’s copy of the check list is enclosed for the jurisdiction to forward to the applicant
contact person.
The applicant’s copy of the check list has been sent to:
Jim Fend
1 Legoland Dr. Carlsbad 92008
Esgil Corporation staff did not advise the applicant that the plan check has been completed.
Esgil Corporation staff did advise the applicant that the plan check has been completed.
Person contacted: Jim Fend
Date contactedgl Cbfipf$@
Mail Telephone Fax In Person
REMARKS:
Telephone #: (760) 846-0841
Fax #:? 760‘ v/r- 5+6?
By: Kurt Culver Enclosures:
Esgil Corporation 0 GA 0 MB EJ PC 2/10/05 trnsmtl.dot
9320 Chesapeake Drive, Suite 208 + San Diego, California 92123 (858) 560-1468 Fax (858) 560-1576
Carlsbad 05-365
February 16,2005
IPLAN :REVIEW CORRECTION LIST
COMMERCIAL
PLAN CHECK NO.: 05-365
OCCUPANCY: A-4
TYPE OF CONSTRUCTION: V-N
ALLOWABLE FLOOR AREA:
S P RI N KLE RS?: . No?
REMARKS:
DATE PLANS RECEIVED BY
JURISDICTION : 2/8/05
DATE INITIAL PLAN REVIEW
COMPLETED: Februarv 16.2005
J U R I S D I CTI ON : Carlsbad
USE: Amusement Structure
ACTUAL AREA:
STORIES: 1
HEIGHT: 23'
OCCUPANT LOAD:
DATE PLANS RECEIVED BY
ESGIL CORPORATION: 2/10/05
PLAN REVIEWER: Kurt Culver
FOREWORD (PLEASE READ):
This plan review is limited to the technical requirements contained in the Uniform Building Code,
Uniform Plumbing Code, Uniform Mechanical Code, National Electrical Code and state laws
regulating energy conservation, noise attenuation and access for the disabled. This plan review
is based on regulations enforced by the Building Department. You may have other corrections
based on laws and ordinances enforced by the Planning Department, Engineering Department,
Fire Department or other departments. Clearance from those departments may be required
prior to the issuance of a building permit.
Code sections cited are based on the 1997 UBC.
The following items listed need clarification, modification or change. All items must be satisfied
before the plans will be in conformance with the cited codes and regulations. Per Sec. 106.4.3,
1997 Uniform Building Code, the approval of the plans does not permit the violation of any
state, county or city law.
To speed up the recheck process, please note on this list (or a COPV) where each
correction item has been addressed, Le., plan sheet number, specification section, etc.
Be sure to enclose the marked up list when vou submit the revised plans.
Carlsbad 05-365
February 16,2005 GENERA^
1.
2.
3.
4.
5.
6.
Please make all corrections on the original tracings, as requested in the correction
list. Submit three sets of plans for commerciaVindustrial projects (two sets of plans
for residential projects). For expeditious processing, corrected sets can be
submitted in one of two ways:
1. Deliver all corrected sets of plans and calculations/reports directly to the City of
Carlsbad Building Department, 1635 Faraday Ave., Carlsbad, CA 92008, (760)
602-2700. The City will route the plans to EsGil Corporation and the Carlsbad
Planning, Engineering and Fire Departments.
2. Bring one corrected set of plans and calculations/reports to EsGil Corporation,
9320 Chesapeake Drive, Suite 208, San Diego, CA 92123, (858) 560-1468.
Deliver all remaining sets of plans and calculations/reports directly to the City of
Carlsbad Building Department for routing to their Planning, Engineering and Fire
Departments.
NOTE: Plans that are submitted directly to EsGil Corporation only will not be
reviewed by the City Planning, Engineering and Fire Departments until review by
EsGil Corporation is complete.
PLANS
- All sheets of the plans are required to be signed by the California licensed
architect or engineer responsible for the plan preparation. Business and
Professions Code.
a) This project consists of more than landscaping/grading. There is a structure to be built as part of this permit. As such, a Landscape Architect
is not allowed to sign the plans. Rather, they must be signedkealed by
the licensed Engineer or Architect (not Landscape Architect) responsible
for preparing them.
Please provide a construction cost estimate for all work to be performed under
this permit. We need this estimate before we can approve the plans.
Provide a Building Code Data Legend on the Title Sheet. Include the following
code information for each building proposed:
+ Floor Area (Report the floor area of the structure.) + Occupant Load
Please verify with the Fire Department that fire sprinklers will not be required (as
stated on the plans).
On the cover sheet of the plans, and S100, it states that there will be no field .
welding (which is incorrect). Please revise.
Carlsbad 05-365
February 16,2005
7.
a.
9.
10.
11.
12.
13.
14.
When special inspection is required, the architect or engineer of record shall
prepare an inspection program which shall be submitted to the building official
for approval prior to issuance of the building permit. Please review Section
106.3.5. Please complete the attached City of Carlsbad form.
The City of Carlsbad requires Class A roofing. Please justify that the
composition shingles will achieve this.
Please specify on the plans the rise/run for the stairs.
Title 24 prohibits open risers for stairs. Please revise L-301, etc.
ADDITIONAL
Please see the following sheet for electrical corrections.
To speed up the review process, note on this list (or a copy) where each
correction item has been addressed, Le., plan sheet, note or detail number,
calculation page, etc.
Please indicate here if any changes have been made to the plans that are not a
result of corrections from this list. If there are other changes, please briefly
describe them and where they are located in the plans.
Have changes been made to the plans not resulting from this correction list?
Please indicate:
0 Yes 0 No
The jurisdiction has contracted with Esgil Corporation located at 9320
Chesapeake Drive, Suite 208, San Diego, California 921 23; telephone number of
858/560-1468, to perform the plan review for your project. If you have any
questions regarding these plan review items, please contact Kurt Culver at
Esgil Corporation. Thank you.
Carlsbad 05-365
February 16,2005
ELECTRICAL CORRECTIONS
PLAN REVIEWER. Eric Jensen
ELECTRICAL (1 999 NATIONAL ELECTRICAL CODE)
1.
2.
3.
4.
5.
6.
Include the equipment ground from the service to the existing vault on the single
line diagram.
What is to keep the electrical room from flooding?
*:e Does it have a drain in the floor?
*:e How is the 4” conduit and made watertight (Pressure test?, type of conduit).
Show the vault location that contains the existing feeders.
Include a complete grounding system. Be sure to show all electrodes as a
complete grounding electrode system (Ride bases).
Describe the transformer electrode system as connected to the above ride
structure grounding electrode system.
Provide a listing description for the new 400 volt equipment (KRC panels, control
panels, etc.). Listed, unlisted, third party certification required, not required?
Note: If you have any questions regarding this Electrical plan review list please contact
Eric Jensen at (858) 560-1468. To speed the review process, note on this list (or a
copy) where the corrected items have been addressed on the plans.
Carlsbad 05-365
February 16,2005 -
I
- City of Carlsbad
BUILDING DEPARTMENT
NOTICE OF REQUIREMENT FOR SPECIAL INSPECTION
Do Not Remove From Plans
Plan Check No. 05-365
You are hereby notified that in addition to the inspection of construction provided by the
Building Department, an approved Registered Special Inspector is required to provide continuous
inspection during the performance of the phases of construction indicated on the reverse side of
this sheet.
The Registered Special Inspector shall be approved by the City of Carlsbad Building
Department prior to the issuance of the building permit. Special Inspectors having a
current certification from the City of San Diego, Los Angeles, or ICBO are approved as
Special Inspectors for the type of construction for which they are certified.
The inspections by a Special Inspector do not change the requirements for inspections by
personnel of the City of Carlsbad building department. The inspections by a Special
Inspector are in addition to the inspections normally required by the County Building
Code.
The Special Inspector is not authorized to inspect and approve any work other than that for which
he/she is specifically assigned to inspect. The Special Inspector is not authorized to accept
alternate materials, structural changes, or any requests for plan changes. The Special Inspector is
required to submit written reports to the City of Carlsbad building department of all work that
heishe inspected and approved. The final inspection approval will not be given until all Special
Inspection reports have been received and approved by the City of Carlsbad building department.
Please submit the names of the inspectors who will perform the special inspections on each of the
items indicated on the reverse side of this sheet.
(over)
Carlsbad 05-365
February 16,2005
bPEClAL INSPECTION PROGRAM
I, as the owner, or agent of the owner (contractors may not employ the special inspector),
certify that I, or the architectlengineer of record, will be responsible for employing the special
inspector(s) as required by Uniform Building Code (UBC) Section 1701.1 for the construction
project located at thpitepted/bove. UBC Section 106.3.5.
2$ i L/ I, as the en needarchitect of record, certify that I have prepared the following special inspection
program as required by UBC Section 106*3.5 for the construction project Iocated at the site listed above. 9
Compliance Prior to Foundation Inspection
Structural Concrete Over 2500 PSI
Concrete
Structural Masonry 0 Designer Specified
0 High Strength Bolting
WExpansiodEpoxy Anchors
Sprayed-On Fireproofing 0 Other
Special inspectors shall check in with the City and present their credentials for approval prior to beginning work on the job site.
Carlsbad 05-365
February 16,2005
Plan Check Fee by Ordinance
PALUATION AND PLAN CHECK FEE
JURISDICTION : Carlsbad PLAN CHECK NO.: 05-365
PREPARED BY: Kurt Culver
BUILDING ADDRESS: 1 Legoland Dr.
DATE: February 16,2005
v
BUILDING OCCUPANCY: A4 TYPE OF CONSTRUCTION: V-N
I
Jurisdiction Code cb By Ordinance
Bldg. Permit Fee by Ordinance
I
I V t
0 Repetitive Fee 71 Repeats
IJ Structural Only
Hourly I I Hour *
Esgll Plan Review Fee 0
Comments: To be determined.
Sheet 1 of 1
macvalue.doc
BUILDING PLANCHECK CHECKLIST
DATE: z~)~T~~ PLANCHECK NO.: CB Dc- 036s
PROJECT DESCRIPTION:
ASSESSORS PARCEL NUMBER: 2 //- /dB - 07 EST. VALUE:
BUILDING ADDRESS: / L90 &-e
/@e% ;;.yL /L+-94& ,/ 4W%zP& Aw /-
ENGINEERING DEPARTMENT
APPROVAL DENIAL
The item you have submitted for review has been
approved. The approval is based on plans,
information and/or specifications provided in your
submittal: therefore any changes to these items after
this date, including field modifications, must be reviewed by this office to insure continued
conformance with applicable codes. Please review carefully all comments attached, as failure to comply with instructions in this report can result in
suspension of permit to build.
A Right-of-way permit is required prior to
construction of the following improvements:
Please see the attached report of deficiencies
marked with 0. Make necessary corrections to plans
or specifications for compliance with applicable
codes and standards. Submit corrected plans and/or
specifications to this office for review.
By: Date:
By: Date:
Date: I By:
AlTACHME NTS
Dedication Application
Dedication Checklist
Improvement Application
Improvement Checklist
Future Improvement Agreement
Grading Permit Application
Grading Submittal Checklist
Right-of-way Permit Application
Right-of-way Permit Submittal Checklist
and Information Sheet
Sewer Fee Information Sheet
ENGINEERING DEPT. CONTACT PERSON
Name: r/n~4-.
City of Carlsbad
Address: 1635 Faraday Avenue, Carlsbad, CA 92008
Phone: (760) 602-27ZS
CFD INFORMATION
Parcel Map No:
Lots:
Recordation:
Carlsbad Tract:
A-4
1 Rev. 7HUW
BUILDING PLANCHECK CHECKLIST
SITE PLAN
1. Provide a fully dimensioned site plan drawn to scale. Show:
A. North Arrow F. Right-of-way Width & Adjacent Streets
B. Existing & Proposed Structures G. Driveway widths
C. Existing Street Improvements H. Existing or proposed sewer lateral
D. Property Lines I. Existing or proposed water service
E. Easements J. Existing or proposed irrigation service
0
d0
0 2. Show on site plan:
A. Drainage Patterns
1. Building pad surface drainage must maintain a minimum slope of one
percent towards an adjoining street or an approved drainage course.
2. ADD THE FOLLOWING NOTE: “Finish grade will provide a minimum positive
drainage of 2% to swale 5’ away from building.”
B. Existing & Proposed Slopes and Topography
C. Size, type, location, alignment of existing or proposed sewer and water service
(s) that serves the project. Each unit requires a separate service, however,
second dwelling units and apartment complexes are an exception.
D. Sewer and water laterals should not be located within proposed driveways, per
standards.
3. Include on title sheet:
A. Site address
B. Assessor‘s Parcel Number
C. Legal Description
For commercial/industriaI buildings and tenant improvement projects, include:
total building square footage with the square footage for each different use,
existing sewer permits showing square footage of different uses (manufacturing,
warehouse, office, etc.) previously approved.
EXISTING PERMIT NUMBER DESCRIPTION
2
BUILDING PLANCHECK CHECKLIST
1 ST 2ND 3d DISCRETIONARY APPROVAL COMPLIANCE
0 0 4a. Project does not comply with the following Engineering Conditions of approval for
Project No.
0 17 4b. All conditions are in compliance. Date:
DEDICATION REQUIREMENTS
5. Dedication for all street Rights-of-way adjacent to the building site and any storm
drain or utility easements on the building site is required for all new buildings and
for remodels with a value at or exceeding $15,000, pursuant to Carlsbad
Municipal Code Section 18.40.030.
0 0
Dedication required as follows:
Dedication required. Please have a registered Civil Engineer or Land Surveyor prepare the appropriate legal description together with an 8 1/2” x 11” plat map and submit with a title report. All easement documents must be approved and signed by owner(s) prior to issuance of Building Permit. Attached please find an application form and submittal checklist for the dedication process. Submit the completed application form with the required checklist items and fees to the
Engineering Department in person. Applications will not be accept by mail or fax.
Dedication completed by: Date:
IMPROVEMENT REQUIREMENTS
6a. All needed public improvements upon and adjacent to the building site must be constructed at time of building construction whenever the value of the
construction exceeds $75,000, pursuant to Carlsbad Municipal Code Section 18.40.040.
0
Public improvements required as follows:
Attached please find an application form and submittal checklist for the public improvement requirements. A registered Civil Engineer must prepare the appropriate improvement plans and submit them together with the requirements on the attached checklist to the Engineering Department through a separate plan check process. The completed application form and the requirements on the
BUILDING PLANCHECK CHECKLIST
-/u
I
checklist must be submitted in person. Applications by mail or fax are not accepted. Improvement plans must be approved, appropriate securities posted and fees paid prior to issuance of building permit.
Improvement Plans signed by: Date:
6b. Construction of the public improvements may be deferred pursuant to Carlsbad
Municipal Code Section 18.40. Please submit a recent property title report or
current grant deed on the property and processing fee of $310 so we may
prepare the necessary Future Improvement Agreement. This agreement must be
signed, notarized and approved by the City prior to issuance of a Building permit.
Future public improvements required as follows:
6c. Enclosed please find your Future Improvement Agreement. Please return
agreement signed and notarized to the Engineering Department.
Future Improvement Agreement completed by:
Date:
6d. No Public Improvements required. SPECIAL NOTE: Damaqed or defective
improvements found adiacent to buildina site must be repaired to the satisfaction
of the City Inspector prior to occuoancy.
GRADING PERMIT REQUIREMENTS
The conditions that invoke the need for a grading permit are found in Section
11.06.030 of the Municipal Code.
0
0
0
0
7a. Inadequate information available on Site Plan to make a determination on grading
requirements. Include accurate grading quantities (cut, fill import, export).
7b. Grading Permit required. A separate grading plan prepared by a registered Civil
Engineer must be submitted together with the completed application form
attached. NOTE: The Gradinq Permit must be issued and rough arading
approval obtained prior to issuance of a Building Permit.
k
*
A Grading Inspector sign off by: Date:
0 0 7c. Graded Pad Certification required. (Note: Pad certification may be required even
if a grading permit is not required.)
4 Rw 711uoO
BUILDING PLANCHECK CHECKLIST iP on 3RD
RnO
doO
7d .No Grading Permit required.
7e. If grading is not required, write “No Grading” on plot plan.
MISCELLANEOUS PERMITS
8. A RIGHT-OF-WAY PERMIT is required to do work in City Right-of-way and/or
private work adjacent to the public Right-of-way. Types of work include, but are
not limited to: street improvements, tree trimming, driveway construction, tying
into public storm drain, sewer and water utilities.
Right-of-way permit required for:
9. INDUSTRIAL WASTE PERMIT If your facility is located in the City of Carlsbad
sewer service area, you need to contact the Carlsbad Municipal Water District,
located at 5950 El Camino Real, Carlsbad, CA 92008. District personnel can
provide forms and assistance, and will check to see if your business enterprise is
on the EWA Exempt List. You may telephone (760) 438-2722, extension 7153,
for assistance.
Industrial Waste permit accepted by:
Date:
10. NPDES PERMIT
Complies with the City’s requirements of the National Pollutant Discharge
Elimination System (NPDES) permit. The applicant shall provide best
management practices to reduce surface pollutants to an acceptable level prior to
discharge to sensitive areas. Plans for such improvements shall be approved by
the City Engineer prior to issuance of grading or building permit, whichever
occurs first.
I 1. Q Required fees are attached
wo fees required
WATER METER REVIEW
12a. Domestic (potable) Use
Ensure that the meter proposed by the owner/developer is not oversized.
Oversized meters are inaccurate during low-flow conditions. If it is oversized, for
the life of the meter, the City will not accurately bill the owner for the water used.
All single family dwelling units received “standard” 1” service with 5/8” service.
5 Rev. 7/1*M)
BUILDING PLANCHECK CHECKLIST
1ST 2ND 3RD
0 If owner/developer proposes a size other than the "standard", then
owner/developer must provide potable water demand calculations,
which include total fixture counts and maximum water demand in gallons
per minute (gpm). A typical fixture count and water demand worksheet is
attached. Once the gpm is provided, check against the "meter sizing
schedule" to verify the anticipated meter size for the unit.
0 Maximum service and meter size is a 2" service with a 2" meter.
0 If a developer is proposing a meter greater than 2", suggest the
installation of multiple 2" services as needed to provide the anticipated
demand. (manifolds are considered on case by case basis to limit
multiple trenching into the street). ,
0 12b. Irrigation Use (where recycled water is not available) All irrigation meters must be sized via irrigation calculations (in gpm) prior
to approval. The developer must provide these calculations. Please follow
these guidelines:
1. If the project is a newer development (newer than 1998), check the recent
improvement plans and observe if the new irrigation service is reflected on
the improvement sheets. If so, at the water meter station, the demand in
gpm may be listed there. Irrigation services are listed with a circled "I",
and potable water is typically a circled "W. The irrigation service should
look like:
STA 1 +00 Install 2" service and
1.5: meter (estimated 100 gpm)
2. If the improvement plans do not list the irrigation meter and the
service/meter will be installed via another instrument such as the building
plans or grading plans (w/ a right of way permit of course), then the
applicant must provide irrigation calculations for estimated worst-case
irrigation demand (largest zone with the farthest reach). Typically, Larry
Black has already reviewed this if landscape plans have been prepared,
but the applicant must provide the calculations to you for your use. Once
you have received a good example of irrigation calculations, keep a set for
your reference. In general the calculations will include:
0 Hydraulic grade line
0 Elevation at point of connection (POC)
0 Pressure at POC in pounds per square inch (PSI)
0 Worse case zone (largest, farthest away from valve
0 Total Sprinkler heads listed (with gpm use per head)
0 Include a 10% residual pressure at point of connection
3. In general, all major sloped areas of a subdivision/project are to be
irrigated via separate irrigation meters (unless the project is only SFD with
no HOA). As long as the project is located within the City recycled water
+ BUILDING PLANCHECK CHECKLIST
1ST 2ND 3RD
service boundary, the City intends on switching these irrigation
services/meters to a new recycled water line in the future.
d’ 0 12c. Irrigation Use (where recycled water is available)
1. Recycled water meters are sized the same as the irrigation meter above.
2. If a project fronts a street with recycled water, then they should be
connecting to this line to irrigate slopes within the development. For
subdivisions, this should have been identified, and implemented on the
improvement plans. Installing recycled water meters is a benefit for the
applicant since they are exempt from paying the San Diego County Water
Capacity fees. However, if they front a street which the recycled water is
there, but is not live (sometimes they are charged with potable water until
recycled water is available), then the applicant must pay the San Diego
Water Capacity Charge. If within three years, the recycled water line is
charged with recycled water by CMWD, then the applicant can apply for a
refund to the San Diego County Water Authority (SDCWA) for a refund.
However, let the applicant know that we cannot guarantee the refund, and
they must deal with the SDCWA for this.
0 13. Additional Comments:
7 Rev. 7/1w
6.
~
kfJJ Coastal Zone AssessmentEompIiance
- APN: Z//-/Cn CQ
Project site located in Coastal Zone? YESX NO
CA Coastal Commission Authorijn If California Coastal Commission Authority: Contact them at - 7575 Metropolitan Drive, Suite 103, San Diego CA 921 08-4402; (61 9) 767-2370
Determine status (Coastal Permit Required or Exempt): a P 96 -/ff&-
If NO, complete Coastal Permit Determination Form now.
Coastal Permit Determination Log #:
YES- NOX
Coastal Permit Determination Form already completed? YES- NO-
CFD in ut) #-Date of participation: l@2!/= Remaining net dev acres: -,d 8.
Follow-Up Actions:
1) Stamp Building Plans as "Exempf' or "Coastal Permit Required" (at minimum Floor Plans). 2) Complete Coastal Permit Determination Log as needed.
lnclusionary Housing Fee required: YES - NO (Effective date of lnclusionary Housing Ordinance - May 21 , 1993.) -a-•
Data Entry Completed? YES - NO- (A/P/Ds, Activity Maintenance, enter CW, toolbar, Screens, Housing Fees, Construct Housing Y/N,
Enter Fee, UPDATE!)
Site Plan:
H:\ADMIN\COUNTER\PlnchkRevChkkt Rev 9101
"7
%OD
1. Provide a fully dimensional site plan drawn to scale. Show: North arrow, property lines,
easements, existing and proposed structures, streets, existing street improvements, right-of-way
width, dimensional setbacks and existing topographical lines (including all side and rear yard
slopes).
2. Provide legal description of properly and assessor's parcel number.
Policy 44 - Neighborhood Architectural Design Guidelines
1. Applicability: YES NO
2. Project complies YES NO
Zoning:
1. Setbacks:
Front: Required Shown
Interior Side: Required Shown
Street Side: Required Shown
Rear: Required Shown
Top of slope: Required Shown
2. Accessory structure setbacks:
Front: Required Shown
Interior Side: Required Shown Street Side: Required Shown Rear: Required Shown Structure separation: Required Shown
3. Lot Coverage: Required Shown
4. Height: Required Shown
5. Parking: Spaces Required Shown
Residential Guest Spaces Required Shown
(breakdown by uses for commercial and industrial projects required)
Additional Comments
OK TO ISSUE AND ENTERED APPROVAL INTO COMPUTER & YL DATE 2- 9- Gts-
H:\ADMIN\COUNTERWldaPlnchkRevChldst Rev 9/01
Carlsbad Fire Department 050365
1635 Faraday Ave. Fire Prevention
Carlsbad, CA 92008 (760) 602-4660
Plan Review Requirements Category: Building Plan
Date of Report: 02/09/2005 Reviewed by:
Name: JIM FEND
Address: 1 LEGODR
City, State: CARLSBAD CA 92008
Plan Checker: Job #: 050365
Job Name: Legoland CA Bldg #: CB050365
Job Address: 1 Legoland Dr. Ste. or Bldg. No.
1x1 Approved The item you have submitted for review has been approved. The approval is
based on plans, information and / or specifications provided in your submittal;
therefore any changes to these items after this date, including field
modifications, must be reviewed by this office to insure continued conformance
with applicable codes and standards. Please review carefully all comments
attached as failure to comply with instructions in this report can result in
suspension of permit to construct or install improvements.
0 Approved
Subject to
The item you have submitted for review has been approved subject to the
attached conditions. The approval is based on plans, information and/or
specifications provided in your submittal. Please review carefully all comments
attached, as failure to comply with instructions in this report can result in
suspension of permit to construct or install improvements. Please resubmit to
this office the necessary plans and / or specifications required to indicate
compliance with applicable codes and standards.
0 Incomplete The item you have submitted for review is incomplete. At this time, this office
cannot adequately conduct a review to determine compliance with the
applicable codes and / or standards. Please review carefully all comments
attached. Please resubmit the necessary plans and / or specifications to this
office for review and approval.
Review 1 st 2nd 3rd Other Agency ID
FD Job# 050365 FD File #
I
.."I-_-.
No, 0390 P, 15/16
.
I
Fmm RHETT8AVOIE ! lo: John McDougle '
Fax: 858617-7001 Pages: 4 lndudhg cover shed
I4 ,.
PhonO: 858697-7070 i? 8 Date: W&esday,'March 08,2005 I
BI urgunt B mr mvbw u Planae ahmerit o Piewe Repfy PI-SB Recycle
Comments:
Please find che paa4 Nming plqn and attached detail for the OanUlever 6x10 celllng
beam at line P that arrbs the 8x110 at line 6.
I
Oe~ll8NSbol at grid Iinw P & 6
ti
1 AB1 Engineering Consultants Inc.
23916 Old Pomegranate Road Yorba Linda CA 92887
Tel. (949) 510-8874 Fax: (714) 844-9425 E-Mail: abi@abiconsuitants.com
DESIGN CALCULATIONS
KEYSTONE RETAINING WALL
Legoland
Knight's Tournament
Carlsbad, Ca
Prepared for the exclusive use of
Legoland
1 Legoland Drive
Carlsbad, CA
Date: February 17,2005
AB1 Engineering Consultants he.
23916 Old Pomegranate Road
Yorba Linda, CA 92887
Tel: (949) 5 10-8874
Fax: (714) 844-9425
TABLE OF CONTENTS
INTRODUCTION ........................................................................................................................... 1
PROPOSED WALL DESCRIPTION ............................................................................................ 1
DESIGN METHODOLOGY .......................................................................................................... 1
DESIGN PARAMETERS ............................................................................................................... 1
Soils Parameters ........................................................................................................................... 1
Wall Parameters ........................................................................................................................... 1
ANALYSIS: ...................................................................................................................................... 1
REFERENCES ................................................................................................................................ 2
GENERAL CONDITIONS ............................................................................................................. 3
APPENDIX A - KEYWALL 2004 OUTPUT ................................................................................ 4
ABI Engineering Consultants Inc . ii
1
Internal Friction Angle, (I O
Soil Unit Weight, y (pcf)
Cohesion, C (psf)
INTRODUCTION
This report presents the design parameters, design methodology and calculations performed for the
design of the proposed segmental block retaining wall using Keystone units in the Knight’s
Tournament area of Legoland, Carlsbad, Ca.
32 32 32
0 0 00
125 125 125
PROPOSED WALL DESCRIPTION
The proposed wall is shown on grading plan(The Collaborative West) and is intended to maintain a
pathway in the Knight’s Tournament Attraction. Wall will have level grade at the top and level grade
at the bottom, with a maximum height of approximately 7’. The length of the wall is approximately
100’. The wall embedment is a minimum of 6 inches.
DESIGN METHODOLOGY
The computer code KEYWALL 2004 developed by Keystone Retaining Wall Systems, Inc. is used to
complete the analysis. The computer code is based on the methods presented in Design Manual and
Keywall Operation Manual (Keystone Retaining Wall Systems, Inc. 1995). Keywall allows user to
select Rankine or Coulomb earth pressure theory. Keystone recommends use of the Rankine
methodology. The Rankine methodology is described in the Keystone manual and in the help file of
Keywall Software. The results of the analysis are included as Appendix A.
DESIGN PARAMETERS
Soils Parameters
Based on the soil parameters presented in the geotechnical report (Leighton), we have assigned the
following material parameters to the site soils.
I I Reinforced soils I Foundation Soils I Retained soils I
Wall Parameters
The calculations assume 12” deep Keystone Standard units. Fortrac 3 5/20-20 geogrids manufactured
by Huesker, Inc. are used for soil reinforcement. Geogrids with equivalent physical properties and
manufactured by others may be substituted upon approval by the Engineer. Typical cross-sections of
the walls, reinforcement schedules, details, and specifications are included in the plans prepared for
the project. The wall is designed with a batter of 1:32 (H:V).
The design of the retaining walls assumes no build up of hydrostatic pressures within the reinforced
fill zone of the wall. Therefore, construction of an effective subdrain system behind the reinforced soil
zone is critical to the performance of the wall.
ANALYSIS:
The wall design is based on the following factor of safety (FS) for stability analysis of the walls.
The factors of safety are for static loading conditions are indicated below and are based on the
current standard of practice.
AB1 Engineering Consultants Inc. 1
We recommend that the project geotechnical consultant evaluate the global stability of the wall
and slope configuration for adequate factors of safety. Any recommendations by the geotechnical
consultant to increase or add additional geogrids should be brought to our attention.
RECOMMENDATIONS
The wall(s) shall be constructed per the details and geogrid reinforcement schedule based on the
design calculations provided in this report, typical section, reinforcement schedule, and following
construction notes and specifications presented on the grading plans. The Keystone walls shall be
constructed per the manufacturers recommended procedures for installation of Keystone blocks,
fiberglass pins, and geogrid reinforcement.
The foundation, retained and backfill soils shall have the minimum shear strength properties as used
for design in this report and as specified on the plans. All backfill shall be placed in loose lifts not
exceeding 6- to 8-inches, moisture conditioned and compacted to a minimum of 90% of the maximum
dry density determined by Modified Proctor compaction test (ASTM D1557-91). These compaction
requirements shall be reviewed by the project geotechnical engineer.
The project geotechnical engineer is responsible to veri@ the foundation soil, retained soil, and
backfill soils and their strength are consistent with their geotechnical report findings and as used in the
design of Keystone walls. The compaction tests shall be performed on backfill soils for meeting the
minimum densities recommended. Any changes to foundation, retained and backfill soil properties
and loading conditions on the walls should be brought to our attention. The temporary excavation
back-cut, grading, ground improvement, and sub-drain and surface-drainage system for the Keystone
walls shall be per the Project Soils and Civil Engineer's recommendations.
Any changes to grading plans that affects the wall heights and loading conditions shall be brought to
our attention to verify the wall design is applicable and to verify that no design changes are necessary.
REFERENCES
1. Keystone Retaining Wall Systems, Inc. 1995, Design Manual and Keywall Operation
Handbook, 4444 West 7Sth Street, Minneapolis, Minnesota 55435.
2. Keystone Retaining Wall Systems, Inc., Keywall 200 1, version 3.1.5,4444 West 78th
Street, Minneapolis, Minnesota 55435.
3. ICBO No 4599 for Keystone walls, May 1997 or latest revision.
4. The Collaborative West, Grading Plan Sheet L-102, Legoland, Ca.
5. Leighton and Associates, Inc., Geotechnical Update Report, Proposed Knight's
Tournament Attraction, Legoland, Carlsbad, CA.
AB1 Engineering Consultants Inc. 2
GENERAL CONDITIONS
The client and the owner agree to indemnify, defend and hold the Engineer harmless fiom and against
any and all claims, suits, demands, losses and expenses, including reasonable attorney fees, accruing
or resulting to any and all persons firms or any other legal entity on account of any damage to property
or persons, including death, arising out of the negligent acts or omissions of any contractor,
subcontractor and/or other consultants retained by and under the direction and control of the owner,
with respect to any obligations under this agreement.
Furthermore the client and the owner agree to limit the Engineer's liability to the client, owner and all
construction contractors, subcontractors and any other consultant on the project arising from
Engineer's negligence, errors or omissions, such that the total aggregate liability of the Engineer to all
those named shall not exceed $1,000 or Engineer's total fee for the services rendered on this project,
whichever is less. The client further agrees to require the contractor and his subcontractor, and any
other consultant working on this project to execute an identical limitation of Engineer's liability for
damages suffered by the negligent professional acts, errors or omissions. No finished construction
documents will be released until all outstanding balances for professional services have been paid.
ABI Engineering Consultants Inc. 3
APPENDIX A - KEYWALL 2004 OUTPUT
CALCULATIONS
AB1 Engineering Consultants Inc. 4
175.
C
170L
0 10 20 30 40 60 70 BO 90 100
50,174 00
50.171 00
00.173
00.171
RETAINING WALL DESIGN
Version Version 0.0.1.90
SEISMIC DESIGN
Project: Legoland. KCD
Project No:
Case: Case 1
Design Method: Rankine-wlBatter (modified soil interface)
Date: 211512005
Designer:
Design Parameters
Soil Parameters: f -
Retained Zone 32 0
Foundation Soil 32 0
Reinforced Fill Type:
Unit Fill:
125
125
125
C
Reinforced Fill 32 0
Crushed Stone, 1 inch minus
Peak Acceleration = 0.41 g
Factors of Safety (seismic are 75% of static)
Vertical Acceleration = 0.00 g
sliding: 1.50ll.13 pullout: 1.50l1.13 uncertainties: 1.50l1.13
overturning: 2.001 1.50 shear: 1.50 connection: 1. 501 1.13
bearing: 2.0011.50 bending: 1.50
Reinforcing Parameters: Huesker Geogrids
- Tult mr RFid LTDS FS Tal cds
35120-20 2400 1.67 1.12 1.05 1220 1x0 813 0.90 0.90
Analysis:
Unit Type: Standard 18"
Leveling Pad: Crushed Stone
Wall Ht: 3.50 ft
Level Backfill Offset: 0.00
Surcharge: LL: 0 psf uniform surcharge
Load Width: 0.00 ft
Results: Sliding Overturninq
Factors of Safety: 7.4813.93 33.60113.84
Calculated Bearing Pressure: 4441429 psf
Eccentricity at base: 0.07 W0.21 ft
Reinforcing: (ft & Ibslft)
Calc.
Laver Heiaht Lenath Tension Reinf. Tvpe
2 2.67 5.5 431210 35120-20
1 1.33 6.5 192 I 474 35120-20
Reinforcing Quantities (no waste included):
35120-20 1.33 Sylft
Case: Case 7
Wall Batter: 0.00 deg.
embedment: 0.00 ft
DL: 100 psf uniform surcharge
Load Width: 0.00 ft
Bearing Shear Bendinq
27.04128.96 35.62 123.61 23.01 16.05
Allow Ten Pk Conn Sew Conn Pullout Tal Tcl - Tsc FS
81311449 ok 537176 ok NIA 6.841z 2NG
81311449 ok 6491865 ok NIA 6.7612.19 ok
RETAINING WALL DESIGN
Version Version 0.0.1.90
SEISMIC DESIGN
Project: Legoland.KCD Date: 211512005
Project No: Designer:
Case: Case 2
Design Method: Rankine-wlBatter (modified soil interface)
Design Parameters
Soil Parameters: f - Reinforced Fill 32 0
Retained Zone 32 0
Foundation Soil 32 0
Reinforced Fill Type:
Unit Fill:
125
125
125
C
Crushed Stone, I inch minus
Peak Acceleration = 0.41 g
Factors of Safety (seismic are 75% of static)
Vertical Acceleration = 0.00 g
sliding: l.50l1.13 pullout: 1.50l1.13 uncertainties: 1.50l1.13
overturning: 2.001 1.50 shear: 1.50 connection: 1.5011.13
bearing: 2.0011.50 bending: 1.50
Reinforcing Parameters: Huesker Geogrids
35120-20 2400 1.67 1.12 1.05 1220 1.50 813 0.90 0.90
Tult mr Ed RFid LTDS FS Tal ci
Analysis:
Unit Type: Standard 18"
Leveling Pad: Crushed Stone
Wall Ut: 4.28 ft
Level Backfill Offset: 0.00
Surcharge: LL: 0 psf uniform surcharge
Load Width: 0.00 ft
Results: Sliding Overturninq
Calculated Bearing Pressure: 5511544 psf
Eccentricity at base: 0.12 fV0.33 ft
Reinforcing: (ft & Ibslft)
Factors of Safety: 6.1113.20 22.4319.21
Calc.
Laver Heiaht Lenath Tension Reinf. TvDe
2 2.67 7.0 100 I 391 35120-20
1 1.33 6.5 252 / 561 35/20-20
Reinforcing Quantities (no waste included):
35120-20 1.50 sylff
Case: Case 2
Wall Batter: 0.00 deg.
embedment: 0.00 ft
DL: 100 psf uniform surcharge
Load Width: 0.00 ft
Bearing - Shear Bending
21.42121.98 25.61 118.88 8.06 12.46
Allow Ten Pk Conn Sew Conn Pullout Tal Tcl - Tsc FS
81311449 ok 6031E3 ok NIA 9.131787 ok
813/1449 ok 7001933 ok NIA 7.0112.52 ok
mimyGwumm
RETAINING WALL DESIGN
Version Version 0.0.1.90
SEISMIC DESIGN
Project: Legoland.KCD
Project No:
Case: Case 3
Design Method: Rankine-wlBatter (modified soil interface)
Date: 211512005
Designer:
Design Parameters
Soil Parameters:
Reinforced Fill
Retained Zone
f
32
32 125
125
C - 0
0
Foundation Soil 32 0 125 / '1
Reinforced Fill Type:
Unit Fill: Crushed Stone, 1 inch minus I
Peak Acceleration = 0.41 g
Factors of Safety (seismic are 75% of static)
Vertical Acceleration = 0.00 g
sliding: 1.5011.13 pullout: 1.5011.13 uncertainties: 1.5011.13
overturning: 2.0011.50 shear: 1.50
bearing: 2.0011.50 bending: 1.50
Reinforcing Parameters: Huesker Geogrids - Tult &r Ed RFid LTDS
35120-20 2400 1.67 1.12 1.05 1220
Analysis:
Unit Type: Standard 18"
Leveling Pad: Crushed Stone
Wall Hf: 5.26 ft
Level Backfill Offset: 0.00
Surcharge: LL: 0 psf uniform surcharge
Load Width: 0.00 ft
Results: Slidinq Overturning
Calculated Bearing Pressure: 7011725 psf
Eccentricity at base: 0.22 ftlO.56 ft
Reinforcing: (ft & Ibslft)
Factors of Safety: 4.6012.40 12.6915.20
Calc.
Laver Heiaht Lenath Tension Reinf. TvDe
3 4.00 8.5 711347 35120-20
2 2.67 8.5 133 I 451 35120-20
1 1.33 6.0 327 I 544 35120-20
Reinforcing Quantities (no waste included):
35120-20 2.56 ~ylft
connection: 7.5011.13
- FS &I Ci Cds
1.50 813 0.90 0.90
Case: Case 3
Wall Batter: 0.00 deg.
embedment: 0.00 ft
DL: 100 psf uniform surcharge
Load Width: 0.00 ft
Bearinq
15.00114.02
Allow Ten
87311449 ok
81311449 ok
81311449 ok
Tal
Shear Bendinq
19.27115.30 13.3513.57
Pk Conn Sew Conn
Tcl - Tsc
5721x3 ok NIA
6841912 ok NIA
7001933 ok NIA
Pullout
FS
>lo1795 ok
>10/3.56 ok
6.3413.05 ok
RETMMNG WALL Srsrans
RETAINING WALL DESIGN
Version Version 0.0.1.90
SEISMIC DESIGN
Project: Legoland. KCD
Project No:
Case: Case 4
Design Met hod : Rankine-wlBatter (modified soil interface)
Date: 211512005
Designer:
125
125
125
Design Parameters
Soil Parameters: f -
Retained Zone 32 0
Foundation Soil 32 0
Reinforced Fill Type:
Unit Fill:
C
Reinforced Fill 32 0
Crushed Stone, I inch minus
Peak Acceleration = 0.41 g
Factors of Safety (seismic are 75% of static)
Vertical Acceleration = 0.00 g
sliding: 1.5011.13 pullout: 1.5011.13 uncertainties: 1.5011.13
overturning: 2.001 I. 50 shear: I. 50 connection: 1.5011.13
bearing: 2.0011.50 bending: 1.50
Reinforcing Parameters: Huesker Geogrids - - - Tult mr Ed RFid LTDS FS 21 Ci
35120-20 2400 1.67 1.12 1.05 1220 1x0 813 0.90 0.90
Analysis:
Unit Type: Standard 18"
Leveling Pad: Crushed Stone
Wall Ht: 5.79 ft
Level Backfill Offset: 0.00
Surcharge: LL: 0 psf uniform surcharge
Load Width: 0.00 ft
Results: Slidinq Overturning
Calculated Bearing Pressure: 786J836 psf
Eccentricity at base: 0.27 ftl0.68 ft
Reinforcing: (ft & Ibslft)
Factors of Safety: 4.1812. I8 IO. 4714.29
Calc.
Laver Heiaht Lenath Tension Reinf. Tvpe
3 4.00 7.0 115 I 394 35120-20
2 2.67 7.0 160 I 501 35120-20
I 1.33 6.0 368 I 687 35120-20
Reinforcing Quantities (no waste included):
35120-20 2.22 ~ylft
Case: Case 4
Wall Batter: 0.00 deg.
embedment: 0.00 ft
DL: I00 psf uniform surcharge
Load Width: 0.00 ft
- Shear Bending
13.14111.60 17.08113.92 6.61 12.13
Bearing
Allow Ten Pk Conn Sew Conn Pullout
Tal TCI - Tsc FS
81311449 ok 6171E2 ok NIA 7.141767 ok
81311449 ok 7001933 ok NIA 1012.82 ok
81311449 ok 7001933 ok NIA 6.4012.74 ok
REWtIWG WAU SYSEfkS
RETAl N I NG WALL DESIGN
Version Version 0.0.1.90
SEISMIC DESIGN
Project: Legoland.KCD Date: 211512005
Project No: Designer:
Case: Case 5
Design Method: Rankine-wlBatter {modified soil interface)
Design Parameters
125
125
125
C Soil Parameters: f - Reinforced Fill 32 0
Retained Zone 32 0
Foundation Soil 32 0
Reinforced Fill Type:
Unit Fill: Crushed Stone, I inch minus
Peak Acceleration = 0.41 g
Factors of Safety {seismic are 75% of static)
Vertical Acceleration = 0.00 g
sliding: 1.50l1.13 pullout: 1.50l1.13 uncertainties: 1.50l1.13
overturning: 2.001 1.50 shear: 1.50 connection: 1.5011.13
bearing: 2.00/ I. 50 bending: I. 50
Reinforcing Parameters: Huesker Geogrids
Tult RFcr Ed RFid LTDS FS &I Ci Cds
35120-20 2400 1.67 1.12 1.05 1220 1'0 813 0.90 0.90
Analysis:
Unit Type: Standard 18"
Leveling Pad: Crushed Stone
Wall Ht: 7.36 ft
Level Backfill Offset: 0.00
Surcharge: LL: 0 psf uniform surcharge
Load Width: 0.00 ft
Results: Sliding Overturning
Calculated Bearing Pressure: 1106l1409 psf
Eccentricity at base: 0.49 ftll.22 ft
Reinforcing: (ft & Ibslft)
Factors of Safety: 3.0 11 1.57 5.4412.22
Calc.
Laver Height Length Tension Reinf. TvDe
4 5.33 11.5 139 I 775 35120-20
3 4.00 6.0 172 I 378 35120-20
2 2.67 5.5 240 I 468 35120-20 I 1.33 5.5 488 I 783 35120-20
Reinforcing Quantities {no waste included):
35120-20 3.17 sylft
Case: Case 5
Wall Batter: 0.00 deg.
embedment: 0.00 ft
DL: I00 psf uniform surcharge
Load Width: 0.00 ft
Bearinq - Shear Bending
7.7314.76 12.97 I1 I. 14 5.15 11.77
Allow Ten Pk Conn Sew Conn Pullout
Tal Tcl & FS
81311449 ok 637lz9 ok NIA >10lF07 ok
81311449 ok 7001933 ok NIA 6.2712.28 ok
81311449 ok 7001933 ok NIA 6.9212.84 ok
81311449 ok 7001933 ok NIA 5.6612.82 ok
RETAINING WALL DESIGN
Version Version 0.0.1.90
SEISMIC DESIGN
Project: Legoland.KCD
Project No:
Case: Case 6
Design Method: Rankine-wlBaffer (modified soil interface)
Date: 211512005
Designer:
Design Parameters
Soil Parameters: f
125
Retained Zone 32 0 125
Foundation Soil 32 0 125
Reinforced Fill Type:
Unit Fill:
C - Reinforced Fill 32 0
Crushed Stone, 1 inch minus
Peak Acceleration = 0.41 g
Factors of Safety (seismic are 75% of static)
Vertical Acceleration = 0.00 g
sliding: 1.5011.13 pullout: 1.5011.13 uncertainties: 7.5011.13
overth-ning: 2.001 1.50 shear: 1.50
bearing: 2.0017.50 bending: 1.50
Reinforcing Parameters: Huesker Geogrids
Tult mr Ed RFid LTDS
35120-20 2400 1.67 1.12 1.05 1220
Analysis:
Unit Type: Standard 18”
Leveling Pad: Crushed Stone
Wall Ht: 7.50 ft
Level Backfill Offset: 0.00
Surcharge: LL: 0 psf uniform surcharge
Load Width: 0.00 ft
Results: Slidinq Overturning
Calculated Bearing Pressure: 113711477 psf
Eccentricity at base: 0.51 Wl.27 ft
Reinforcing: (ft & Ibslft)
Factors of Safety: 2.951 1.54 5.2412.14
Calc.
Laver Heiaht Lenath Tension Reinf. Tvpe
5 6.00 12.5 651 560 35120-20
4 5.33 10.0 901448 35120-20
3 4.00 6.0 179 I 327 35120-20
2 2.67 6.0 248 I 443 35120-20
1 1.33 5.5 4991 710 35120-20
Reinforcing Quantities (no waste included):
35120-20 4.44 ~ylft
connection: 1,501 1.13
- FS &I
1.50 813 0.90 0.90
Case: Case 6
Wall Batter: 0.00 deg.
embedment: 0.00 ft
DL: 100 psf uniform surcharge
Load Width: 0.00 ft
Shear Bending Bearinq
7.4514.41 12.71 110.95 9.37 12.74 -
Allow Ten Pk Conn Sew Conn Pullout
81311449 ok 5931x0 ok NIA >10l~37 ok
81311449 ok 6491865 ok NIA >10/3.02 ok
81311449 ok 7001933 ok NIA 6.2712.75 ok
81311449 ok 7001933 ok NIA 8.3013.71 ok
81311449 ok 7001933 ok NIA 5.6613.19 ok
Tcl - Tsc FS
RETAINING WALL DESIGN
Version Version 0.0.1.90
SEISMIC DESIGN
Project: Legoland. KCD
Project No:
Case: Case 7
Design Method: Rankine-wlBatter (modified soil interface)
Date: 21 I512005
Designer:
Design Parameters
125
Retained Zone 32 0 I25
Foundation Soil 32 0 125
Reinforced Fill Type:
Unit Fill:
C Soil Parameters: f - Reinforced Fill 32 0
Crushed Stone, I inch minus
Peak Acceleration = 0.41 g
Factors of Safety (seismic are 75% of static)
Vertical Acceleration = 0.00 g
sliding: 1.50l1.13 pullout: 1.50l1.13 uncertainties: 1.50l1.13
overturning: 2.0011.50 shear: 1.50 connection: 1.5011.13
bearing: 2.001 1.50 bending: 1.50
Reinforcing Parameters: Huesker Geogrids
35120-20 2400 1.67 1.12 1.05 1220 170 813 0.90 0.90
- Tult mr Ed RFid LTDS FS &I Ci
Analysis: Case: Case 7
Unit Type: Standard 18" Wall Batter: 0.00 deg.
Leveling Pad: Crushed Stone
Wall Ut: 7.50 ft embedment: 0.00 ft
Level BacMill Offset: 0.00
Surcharge: LL: 0 psf uniform surcharge
Load Width: 0.00 ft
DL: 100 psf uniform surcharge
Load Width: 0.00 ft
Results: Sliding Overturning Bearing Shear Bending
Factors of Safety: 2.951 1.54 5.2412.14 7.4514.41 12.71 110.95 9.3712.74
Calculated Bearing Pressure: I13711477 psf
Eccentricity at base: 0.51 Wl.27 ft
Reinforcing: (ft & Ibslft)
Calc. Allow Ten Pk Conn Sew Conn Pullout
Laver Heiaht Lenath Tension Reinf. TvPe Tal Tcl - Tsc FS
5 6.00 12.5 651560 35120-20 81311449 ok 5931790 ok NIA >10l~31 ok
4 5.33 10.0 901448 35120-20 81311449 ok 6491865 ok NIA > 1013.02 ok
3 4.00 6.0 179 I 327 35120-20 81311449 ok 7001933 ok NIA 6.2712.75 ok
2 2.67 6.0 248 I 443 35120-20 81311449 ok 7001933 ok NIA 8.3013.71 ok I 1.33 5.5 4991 710 35120-20 81311449 ok 7001933 ok NIA 5.6613.19 ok
Reinforcing Quantities (no waste included):
35120-20 4.44 ~ylft
UETAIIINB WUL SYSTEMS
RETAINING WALL DESIGN
Version Version 0.0.1.90
SEISMIC DESIGN
Project: Legoland. KCD
Project No:
Case: Case 8
Design Method: Rankine-wlBatter (modified soil interface)
Date: 211512005
Designer:
Design Parameters
Soil Parameters: f
125
Retained Zone 32 0 I25
Foundation Soil 32 0 125
Reinforced Fill Type:
Unit Fill:
C - Reinforced Fill 32 0
Crushed Stone, I inch minus
Peak Acceleration = 0.41 g
Factors of Safety (seismic are 75% of static)
Vertical Acceleration = 0.00 g
sliding: 1.5011.13 pullout: 1.50l1.13 uncertainties: 1.50l1.13
overturning: 2.001 1.50 shear: I. 50 connection: 1.501 I. 13
bearing: 2.0017.50 bending: 1.50
Reinforcing Parameters: Huesker Geogrids
Tult RFcr Ed RFid LTDS FS Tal a cds
35120-20 2400 1.67 1.12 1.05 1220 170 813 0.90 0.90
Analysis:
Unit Type: Standard 18"
Leveling Pad: Crushed Stone
Wall Ht: 7.50 ft
Level Backfill Offset: 0.00
Surcharge: LL: 0 psf uniform surcharge
Load Width: 0.00 ft
Results: Slidinq Overturning
Calculated Bearing Pressure: 113711477 psf
Eccentricity at base: 0.51 ftll.27 ft
Reinforcing: (ft & Ibslft)
Factors of Safety: 2.9511.54 5.2412.14
Calc.
Laver Heiaht Lenath Tension Reinf. TvPe
5 6.00 12.5 651 560 35120-20
4 5.33 10.0 901 448 35120-20
3 4.00 6.0 179 I 327 35120-20
2 2.67 6.0 248 I 443 35120-20 I 1.33 5.5 499 I 710 35120-20
Reinforcing Quantities (no waste included):
35120-20 4.44 ~ylft
Case: Case 8
Wall Batter: 0.00 deg.
embedment: 0.00 ft
DL: 100 psf uniform surcharge
Load Width: 0.00 ft
Bearing Shear Bending
7.4514.41 12.71 110.95 9.3712.74
Pk Conn Sew Conn Pullout Allow Ten
Tal Tcl - Tsc FS
813lz49 ok 5931x0 ok NIA >10/~31 ok
81311449 ok 6491865 ok NIA >10/3.02 ok
81311449 ok 7001933 ok NIA 6.2712.75 ok
81311449 ok 7001933 ok NIA 8.3013.71 ok
81311449 ok 7001933 ok NIA 5.6613.19 ok
.
RETAINING WALL DESIGN
Version Version 0.0.1.90
SEISMIC DESIGN
Project: Legoland.KCD
Project No:
Case: Case 9
Design Method: Rankine-wlBatter (modified soil interface)
Design Parameters
Soil Parameters: f - C LE!d Reinforced Fill 32 0 125
Retained Zone 32 0 125
Date: 211512005
Designer:
Foundation Soil 32 0
Reinforced Fill Type:
Unit Fill: Crushed Stone, I inch minus
Peak Acceleration = 0.41 g
Factors of Safety (seismic are 75% of static)
Vertical Acceleration = 0.00 g
sliding: 1.5011.13 pullout: 1.5011.13 uncertainties: 1.5011.13
overturning: 2.0011.50 shear: 1.50
bearing: 2.0011.50 bending: 1.50
Reinforcing Parameters: Huesker Geogrids
Tult mr Ed RFid LTDS
35120-20 2400 1.67 1.12 1.05 1220
Analysis:
Unit Type: Standard 18"
Leveling Pad: Crushed Stone
Wall Ht: 6.00 ft
Level Backfill Offset: 0.00
Surcharge: LL: 0 psf uniform surcharge
Load Width: 0.00 ft
Results: Sliding Overturninq
Calculated Bearing Pressure: 8381930 psf
Eccentricity at base: 0.32 W0.81 ft
Reinforcing: (ft & Ibslft)
Factors of Safety: 3.691 I. 93 8.1813.35
Calc.
Laver Heiaht Lenath Tension Reinf. Tvpe
3 4.00 7.5 137 I492 35120-20
2 2.67 6.5 171 1501 35120-20 I 1.33 5.5 384 I 690 35120-20
Reinforcing Quantities (no waste included):
35120-20 2.17 ~~4ft
connection: 1.5011.13
- FS &I Ci Cds
1.50 813 020 0.90
Case: Case 9
Wall Batter: 0.00 deg.
embedment: 0.00 ft
DL: 100 psf uniform surcharge
Load Width: 0.00 ft
Bearing
10.9618.9 I
Allow Ten
Ta I
81311449 ok
81311449 ok
81311449 ok
Shear Bendinq
16.34 113.45 5.27 11.80
Pk Conn Sew Conn
Tcl - Tsc
6351z6ok NIA
7001933 ok NIA
7001933 ok NIA
Pullout
FS
7.79lF73 ok
9.6712.63 ok
5.5712.48 ok
RETAINING WALL DESIGN
Version Version 0.0.1.90
SEISMIC DESIGN
Project: Legoland. KCD
Project No:
Case: Case IO
Design Met hod : Rankine-wlBatter (modified soil interface)
Design Parameters
Soil Parameters: f - C nf Reinforced Fill 32 0 125
Retained Zone 32 0 125
Foundation Soil 32 0 125
Reinforced Fill Type:
Unit Fill: Crushed Stone, I inch minus
Date: 211512005
Designer:
Peak Acceleration = 0.41 g
Factors of Safety (seismic are 75% of static)
Vertical Acceleration = 0.00 g
sliding: 1.5011.13 pullout: 1.5011.13 uncertainties: 1.5011.13
overturning: 2.001 1.50 shear: 1.50 connection: 1.501 I. 13
bearing: 2.0011.50 bending: 1.50
Reinforcing Parameters: Huesker Geogrids
Tult RFcr Ed RFid LTDS FS &I
35120-20 2400 1.67 1.12 1.05 1220 1.50 813 0.90 0.90
Analysis:
Unit Type: Standard 18"
Leveling Pad: Crushed Stone
Wall Ht: 6.00 ft
Level Backfill Offset: 0.00
Surcharge: LL: 0 ps f uniform surcharge
Load Width: 0.00 ft
Results: Sliding Overturning
Calculated Bearing Pressure: 8381930 psf
Eccentricity at base: 0.32 W0.81 ft
Reinforcing: (ft & I bslft)
Factors of Safety: 3.691 I. 93 8.1813.35
Calc.
Laver Heiaht Lenath Tension Reinf. Tvpe
3 4.00 7.5 137 I 492 35120-20
2 2.67 6.5 171 1501 35120-20
1 1.33 5.5 384 I 690 35120-20
Reinforcing Quantities (no waste included):
35120-20 2.17 sylft
Case: Case 10
Wall Batter: 0.00 deg.
embedment: 0.00 fi
DL: 100 psf uniform surcharge
Load Width: 0.00 ft
Bearinq Shear Bending
10.9618.91 16.34 113.45 5.27 11.80
Allow Ten Pk Conn Sew Conn Pullout
81311449 ok 6351z6 ok NIA 7.791F73 ok
81311449 ok 7001933 ok NIA 9.6712.63 ok
81311449 ok 7001933 ok NIA 5.5712.48 ok
Tcl - Tsc FS
REW11118 WU RSlEMS
RETAINING WALL DESIGN
Version Version 0.0.1.90
SEISMIC DESIGN
Project: Legoland.KCD Date: 211512005
Project No: Designer:
Case: Case I1
Design Method: Rankine-wlBatter (modified soil interface)
125 2 125
125 "E 1
Design Parameters
C Soil Parameters: f - Reinforced Fill 32 0
Retained Zone 32 0
Foundation Soil 32 0
Reinforced Fill Type:
Unit Fill: Crushed Stone, I inch minus
Peak Acceleration = 0.41 g
Factors of Safety (seismic are 75% of static)
Vertical Acceleration = 0.00 g
sliding: 1.5011.13 pullout: 1.5011.13 uncertainties: 1.50l1.13
overturning: 2.0011.50 shear: 1.50 connection: 1.50l1.13
bearing: 2.0011.50 bending: 1.50
Reinforcing Parameters: Huesker Geogrids
35120-20 2400 1.67 1.12 1.05 1220 120 813 0.90 0.90
Tult RFcr Ed RFid LTDS FS &I Ci
Analysis:
Unit Type: Standard 18"
Leveling Pad: Crushed Stone
Wall Ht: 4.63 ft
Level Backfill Offset: 0.00
Surcharge: LL: 0 psf uniform surcharge
Load Width: 0.00 fi
Results: Sliding Overturninq
Calculated Bearing Pressure: 6001599 psf
Eccentricity at base: 0.1 5 ftl0.39 ft
Reinforcing: (ft & Ibslft)
Factors of Safety: 5.6612.96 19.2117.89
Calc.
Laver Heiaht Lenath Tension Reinf. TvPe
2 2.67 6.5 133 I 437 35120-20
I 1.33 6.5 279 I 646 35120-20
Reinforcing Quantities (no waste included):
35120-20 1.44 sylft
Case: Case 11
Wall Batter: 0.00 deg.
embedment: 0.00 ft
DL: I00 psf uniform surcharge
Load Width: 0.00 ft
Shear Bendinq
19.52119.59 22.89 117.41 5.48 11.86
Bearinq
Allow Ten Pk Conn Sew Conn Pullout
Tal Tcl - Tsc FS
81311449 ok 632lz2 ok NIA 7.321778 ok
81311449 ok 7001933 ok NIA 7.0812.44 ok
-
908 S. CLEVELAND ST.
STRUCTURAL ENGINEERS OCEANSIDE, CA 92054
DUNN SAVOIE INC.
PH. C7601 966-6355
FX. C7603 966-6360 E-mail: dsi@surfdsi.com c
SUPPLEMENTARY STRUCTURAL CALCULATIONS
FOR
LEGOLAND-KNIGHTS QUEST
ONE LEG0 DRIVE
CARLSBAD, CALIFORNIA 92008
SI PROJECT NO. 04320.00)
TABLE OF CONTENTS
ITEM PAGE
Category F. REVISED DESIGN OF RAMP WALLS AND MAT FOOTING
(TO UPDATE AND REPLACE Category D. ) Fl-F25
DESIGN CRITERIA F 1 -F2
GENERAL ANALYSIS OF MAT FOOTING AND RAMP WALL F3-F7
DESIGN OF CONCRETE RETAINING WALL F8-F23
DESIGN OF PAD FOOTING OF WOOD POSTS F24-F25
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland St.
Oceanside, CA 92054 Tel: (760) 966-6355 Fax: (760) 9666360
SHEET NO.
DESIGN CRITERIA
Dunn Savoie Inc. Structural Engineers
908 S. Cleveland St. Oceanside, CA 92054
Tal: (760) 966-6355 Fax: (760) 966-6360
JOB Legoland-Knights Quest 04320.00
SHEET NO F-L OF
CALCULATED BY Y.S. DATE 1/05
CHECKED BY DATE
SCALE
:ODE:
1997 Unifrom Building Code (UBCJ
2001 California Building Code (CBC)
IEISMIC:
Z= 0.4
I= 1
SOILTYPE= SC
R= 2.2
Na = 1 .o
Nv = 1.1
Ca = 0.44
MIND:
EAST-WEST
70 MPH
EXP B
MOOD: 97NDS
(Zone 4)
HEIGHT
0'-15'
20'
25'
2x & 3x Douglas Fir-Larch No. 2
>3x Douglas Fir-Larch No. 1
'OUNDATION CRITERIA
ALLOWABLE SOIL PRESSURE FOR D+L
FRICTION COEFFICIENT
PASSIVE EARTH PRESSURE
ACTIVE EARTH PRESSURE
WIND LOAD (PSF)
10.2
11.0
11.8
2500 PSF
0.35
300 PCF
35 PCF
Dunn Savoie Inc. Structural Engineers 908 S. Cleveland St.
Oceanside, CA 92054
Tel: (760) 966-6355 Fax: (760) 966-6360
SHEET NO.
CALCULATED BY
JOB I LEGO-KNIGHTS QUEST I JOB# I 04320.00 I c- i I F- -9 OF
Y.S. DATE 2/05
CHECKED BY
SCALE
DATE
GENERAL ANALYSIS
OF MAT FOOTING AND RAMP WALL
-I
JOB
SHEET NO Ft; OF DUNN SAVOIE INC.
STRUCTURAL ENGINEERS
I
908 S. Cleveland Street CALCULATED BY DATE
PH. (760) 966-6355 FAX (760) 966-6360 CHECKED BY DATE
OCEANSIDE, CA 92054
Email: dsi@surfdsi.com
SHEET NO. Fb OF DUNN SAVOIE INC.
STRUCTURAL ENGINEERS
OCEANSIDE, CA 92054
Email: dsi@surfdsi.com
908 S. Cleveland Street CALCULATED BY DATE
PH. (760) 966-6355 FAX (760) 966-6360 CHECKED BY DATE
SCALE
= &&2 +-f-r,
f Y 60000
b 12
d 7.5
@ 0.9
f; 3000
MU 10.0424 k-ft
fY 60000
b 12
d 4.5
QJ 0.9
f; 3000
MU 5.85284 k-ft
bu)
As2= 0.31 d2= 7.20
in2 in
CssE c.
Jd2= 4.20
in
As2=
in2
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland St. Oceanslde, CA 92054 Tel: (760) 966-6355
Fax: (760) 966-6360
SHEET NO.
CALCULATED BY Y.S. DATE
CHECKED BY DATE
DESIGN OF CONCRETE RETAINING WALL
r:
f \\
Wall Thickness, t = 9 in.
Concrete Strength, fc = 3-0 psi
n
4 35 b9W2 % AxialLoad, N= %Vi% #
Eccentricity of N, e = 8.0 in. 5 d
533%
c LP Soil Bearing Capacity for D+L -&oo psf
Active Soil Pressure, q,= 35 pcf ST
Footing Concrete, fc = 3aoo psi
Footing Steel, fy = 60~~3 psi I67.6 r
- 3.A Cantilever Concrete Retaining Wall Design
SW LWE4,
- d'
t
> 4' <it
-
D
>-
Footing Dimensions
Footing Depth, D = IS in.
Footing Width, B = 4 ft.- 3 in.
,BL= t ft.- o in.
BR= I ft.- 3 in.
Per Enercalc Results,
Wall Reinfoecement
Footing Reinforcement '
At Transverse Direction,
At Longitudinal Direction, #- 5 @ ti' E4~ WAY Bottom
BL 1 BR
1 7' /
B \'-'5''
I / I
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: (760) 966-6355
-
Job # yo@
Date: 2:20PM, 22 FEB 05
Title :
Dsgnr:
Description :
Scope :
Rev: 560100 Cantilevered Retaining Wall Design u:,yshao,shared\engineering\coNnerciaRlea
Description 3NS301
I Criteria CI
Retained Height = 5.25ft
Wall height above soil = 0.50 ft
Slope Behind Wall = 0.00 : 1
Height of Soil over Toe = 0.00 in
Soil Density = 110.00 pcf
Wind on Stem = 0.0 psf
!
1
Allow Soil Bearing = 2,500.0 psf
Equivalent Fluid Pressure Method
Heel Active Pressure = 35.0
Toe Active Pressure = 0.0 Passive Pressure = 250.0 Water height over heel = 0.0 ft
FootingllSoil Friction = 0.300
Soil height to ignore for passive pressure = 0.00 in
I Footina Strenaths & Dimensions b
fc = 3,000 psi
Min. As %
Toe Width Heel Width Total Footing Width
Footing Thickness
Key Width
Key Depth
Key Distance from Toe
60,000 psi 0.0014
2.00 R 1.25 3.25
15.00 in
0.00 in
0.00 in
0.00 ft
Cover@Top = 3.00in @ Btm.= 3.00 in
Axial Dead Load = 5,368.0 Ibs Axial Load Eccentricity = 8.0 in Axial Live Load - 0.0 Ibs -
Top Stem
Stern OK
0.08 in Wall Material Above "Ht" = Concrete
Total Bearing Load = 7,098 Ibs Design height ft= 0.00 - - ... resultant ecc.
Soil Pressure @ Toe = 2,158 psf OK
Soil Pressure @ Heel = 2,210 psf OK
Soil Pressure Less Than Allowable
Allowable = 2,500 psf
ACI Factored @ Toe = 2,933 psf
ACI Factored @ Heel = . 3,004 psf
Footing Shear @ Toe = 20.2 psi OK
Footing Shear @ Heel = 6.4 psi OK - Allowable - 93.1 psi
Sliding - 3.14 OK
Lateral Sliding Force = 739.4 Ibs
- - 8.23 OK
Wall Stability Ratios Overturning
Sliding Calcs Slab Resists All Sliding !
-
LFooting Design Results 1 Toe Heel -- Factored Pressure
Mu' : Upward
Mu' : Downward
Mu: Design
Actual I-Way Shear Allow I-Way Shear
Toe Reinforcing Heel Reinforcing
Key Reinforcing
= 2,933 3,004 psf = 5,895 0 ft# - 525 309 ft# = 5,370 309 ft#
= 20.24 6.42 psi = 93.11 93.11 psi
= NoneSpec'd = NoneSpec'd = NoneSpec'd
-
- Thickness - 9.00 Rebar Size = #5
Rebar Spacing = 12.00
Rebar Placed at = Edge
fblFB + falFa - 0.671
Total Force @ Section Ibs = 820.0
Moment. ... Actual ft#= 6,445.1
Moment.. . ..Allowable = 9,601.3
Shear ..... Allowable psi= 93.1
Bar Develop ABOVE Ht. in = 21.36
Bar Lap/Hook BELOW Ht. in = 6.34
Wall Weight = 108.8
Rebar Depth 'd' in = 7.19
fm psi =
Fs psi =
Special Inspection
Modular Ratio 'n' Short Term Factor
Equiv. Solid Thick. Masonry Block Type = Normal Weight
fc psi= 3,000.0
FY psi = 60,000.0
Toe: #4@ 12.50 in, #5@ 19.50 in, #6@ 27.50 in, #7@ 37.50 in, #8@ 48.25 in, #9@ 4 Heel: Not req'd, Mu < S * Fr Key: No key defined
Design Data -
Shear.. .. .Actual psi = 9.5
Masonry Data
- Solid Grouting - - - - - - - - -
Concrete Data
Other Acceptable Sizes Ut Spacings
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job #yo@ Dsgnr: F‘3 Date: 2:20PM,’ 22 FEB 05 Description :
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Page 2 Rev: 560100 User: KW-0602938, Ver 5.6.1.25-Oct-2002 (c)l983-2002 ENERCALC Engineering Software
Description 3NS301.
..... OVERTURNING ..... ..... RESISTING ..... Force Distance Moment Force Distance Moment
Item Ibs fl ft-# Ibs ff ft-#
Heel Active Pressure = 739.4 2.17 1,602.0 Soil Over Heel 288.8 3.00 866.3
Toe Active Pressure = Sloped Soil Over Heel =
Surcharge Over Toe = Surcharge Over Heel =
Adjacent Footing Load = Adjacent Footing Load =
Added Lateral Load = Axial Dead Load on Stem = 5,368.0 1.71 9,170.3
SeismicLoad - - Surcharge Over Toe =
Total 739.4 O.T.M. = 1,602.0 Earth @ Stem Transitions=
- -
- Load Q Stem Above Soil = Soil Over Toe -
- Stem Weight@) - 625.3 2.38 1,485.1 - - - - ResistinglOverturning Ratio = 8.23 Footing Weight 609.4 1.63 990.2
206.1 3.25 669.7
13,181.6
Key Weight
Vert. Component
- - - - Vertical Loads used for Soil Pressure = 7,097.5 Ibs
Vertical component of active pressure used for soil pressure Total = 7,097.5 Ibs R.M.=
c
Cantilever Concrete Retaining Wall Design
Given: P Wall Height, H = 7 ft.
Wall Thickness, t = {I in.
Concrete Strength, fc = 3pm psi
Axial Load, N = #
Eccentricity of N, e = 3 in.
Soil Bearing Capacity for D+L '7!500 psf
Active Soil Pressure, qa = 35 pcf
Footing Concrete, Pc = kw psi
Footing Steel, fy = 69~~7 psi
Per Ene rcalc Res u Its,
Wall Reinfoecement
23% e 12 O.C. I Bottom
Middle
TOP
Footing Dimensions
Footing Depth, D = in.
Footing Width, B = 3' ft.- o in.
BL= I ft.- 6 in.
BR= ft.- 6 in.
If
Footing Reinforcement
Nl
1#r @ 1%" 0.C.
Dunn Savoie Inc. Title : FI Y Job #yo@
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: 1760) 966-6355
-
Page 1 Rev: 560100 User: KW-0602938, Ver 5.6.1.25-Oct-2002 (c)l983-2002 ENERCALC Engineering Software Retaining Design u:\yshao\shared\engineering\cornmercial\legola 1
Description 3BIS301
I Criteria cr
Date: 2:38PM. 22 FEB 05 '- Dsgnr:
Description :
Scope :
Retained Height = 5.00ff
Wall height above soil = 1.50 ft
Slope Behind Wall = 0.00 : 1
Height of Soil over Toe = 0.00 in
Soil Density = 110.00 pcf
Wind on Stem = 0.0 psf
/-Axial Load Applied to Stem b
Total Bearing Load = 6.285 Ibs ... resultant ecc. L - 0.33 in
Allow Soil Bearing = 2,500.0 psf Equivalent Fluid Pressure Method
Heel Active Pressure = 35.0
Toe Active Pressure = 0.0
Passive Pressure = 250.0
Water height over heel = 0.0 ft
FootingllSoil Friction = 0.300
Soil height to ignore for passive pressure = 0.00 in
= 4,347.0 Ibs - 0.0 Ibs - Axial Dead Load
Axial Live Load
I Footina Strenaths & Dimensions b
Soil Pressure @ Toe = 2,211 psf OK Soil Pressure Q Heel = 1,979 psf OK
Soil Pressure Less Than Allowable Allowable = 2,500 psf
ACI Factored Q Toe = 3,001 psf ACI Factored Q Heel = 2,687 psf
Footing Shear Q Toe = 10.6 psi OK
Footing Shear @ Heel = 6.7 psi OK - Allowable - 93.1 psi
7.50 OK Overturning
Sliding 3.04 OK
Sliding Calcs Slab Resists All Sliding !
Lateral Sliding Force I 683.6 Ibs
- - Wall Stability Ratios
Toe Heel --
fc = 3,000 psi Fy = 60,OOOpsi
Min. As % = 0.0014
Toe Width - - 1.50ff
1.50 Heel Width
Total Footing Width = 3.00
Footing Thickness 15.00 in
Key Width 0.00 in Key Depth 0.00 in
Key Distance from Toe = 0.00 ff
Cover Q Top = 3.00in @ Btm.= 3.00 in
Axial Load Eccentricity = 5.0 in
- -
- -
- - - -
Top Stem
Stem OK Design height ft= 0.00
Factored Pressure
Mu' : Upward
Mu' : Downward
Mu: Design
Actual 1 -Way Shear Allow I-Way Shear
Toe Reinforcing Heel Reinforcing Key Reinforcing
= 3,001 2,687 psf = 3,317 0 ft-# - 295 365 ft-# = 3,022 365 ff-#
= 10.64 6.71 psi = 93.11 93.11 psi = NoneSpec'd = NoneSpec'd = NoneSpec'd
-
Wall Material Above "Ht"
Thickness Rebar Size
Rebar Spacing
Rebar Placed at
fblFB + fa/Fa
Total Force @ Section
Moment .... Actual .
Moment.. . . .Allows ble
Shear ..... Actual
Shear ... . .Allowable
Design Data
Concrete
11.00
#5
12.00
Edge
- -
Ibs =
ft# =
psi =
psi =
- - 1
0.305
743.8
3,775.3
2,391.3
6.7
93.1
Bar Develop ABOVE tit. in = 21.36
Bar LaplHook BELOW Ht. in = 6.00
Wall Weight . = 132.9
Rebar Depth 'd' in = 9.19
frn psi =
Fs psi =
Solid Grouting Special Inspection -
Modular Ratio 'n'
Short Term Factor
Equiv. Solid Thick. Masonry Block Type = Normal Weight
fC psi= 3,000.0
FY psi = 60,000.0
Toe: Not req'd, Mu < S * Fr
Heel: Not req'd, Mu c S * Fr
Key: No key defined
Masonry Data
- - - - - - - - -
Concrete Data
Other Acceptable Sizes 8, Spacings
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: f760) 966-6355
Title : Job # jTl@
Dsgnr: f ' Date: 2:38PM, 22 FEB 05 Description :
Scope :
Page 2 Rev: 560100 User KW-0602938, Ver 5.6.1, 25-0~1-2002 (c)l983-2002 ENERCALC Engineering Software Can ti levered Rets in ing Wa Design u:\yshao\shared\engineering\cornmerciaillegola 1
Description 3BIS301
..... OVERTURNING ..... ..... RESISTING .....
c Force Distance Moment Force Distance Moment Item Ibs ft ft# Ibs ft ft#
Heel Active Pressure = 683.6 2.08 1,424.2 Soil Over Heel - 320.8 2.71 868.9
Toe Active Pressure = Sloped Soil Over Heel =
c Surcharge Over Toe = Surcharge Over Heel =
Adjacent Footing Load = Adjacent Footing Load =
Added Lateral Load = Axial Dead Load on Stem = 4,347.0 1.54 6,701.6
Load @ Stem Above Soil =
-
Soil Over Toe - - - - SeismicLoad - Surcharge Over Toe = - Stem Weight@) - 864.0 1.96 1,691.9
ResistinglOverturning Ratio = 7.50 Footing Weight - 562.5 1.50 843.7
- - Total 683.6 O.T.M. = 1,424.2 Earth @ Stem Transitions=
Key Weight - -
Vert. Component
-
- - 190.5 3.00 571.6
Total = 6,284.8 Ibs R.M.= 10,677.8
Vertical Loads used for Soil Pressure = 6.284.8 Ibs
Vertical component of active pressure used for soil pressure
P - Cantilever Concrete Retaining Wall Design ' %\ LWE z
Given:
Wall Height, H = 2tL' ft.
(7% 4 Wall Thickness, t = 4 in. -
Concrete Strength, fc = 3000 psi
/ s%3* 3Lot2 ## \2ov-.-xL% Axial Load, N =
WL Eccentricity of N, e = 0.3- in. =
9',ir Soil Bearing Capacity for D+L psf
Active Soil Pressure, q,= 35 pcf
Footing Concrete, fc = 3300 psi
Footing Steel, fy = 60000 psi
Per Enercalc Results,
Wall Reinfoecement
7 Footing Dimensions
Footing Depth, D =
B=
BL =
BR =
c
-
Footing Reinforcement
-
At Longitudinal Direction,
I !Y
2r
I
I
in.
ft. -
ft. -
ft.-
4444
5 in.
orf in.
3'' in.
Gm-.
6
rn
&
11
Q Bottom
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: 1760) 966-6355
-
c
c
c
Job # yo@
Date: 11 :45AM, 24 FEB 05 Title : F=l% Dsgnr:
Description :
Scope :
Page 1 Rev: 560100 User: KW-0602938, Ver 5.6.1, 25-oc1-2002 (c)1983-2002 ENERCALC Engineering Software Retaining Design u\yshao\shared\engineeringkmmrcianlegola 1
Description 1 OK301
lcriteria
Retained Height = 2.00ft
Wall height above soil = 0.50 ft
Slope Behind Wall = 0.00 : 1
Height of Soil over Toe = 0.00 in
Soil Density = 110.00 pcf
Wind on Stem - - 0.0 psf
r . ... .._., :Soil Data
Allow Soil Bearing = 2.500.0 psf Equivalent Fluid Pressure Method Heel Active Pressure = 35.0
Toe Active Pressure = 0.0 Passive Pressure = 250.0 Water height over heel = 0.0 ft
FootingllSoil Friction = 0.300
Soil height to ignore
1.. I
for passive pressure = 0.00 in
LFooting Strengths & Dimensions
fc = 3,000 psi Fy = 60,OOOpsi
Min. As % = 0.0014
1.25 Toe Width Heel Width Total Footing Width = 2.25
Footing Thickness 15.00 in - 0.00 in - 0.00 in Key Width Key Depth
Key Distance from Toe = 0.00 ft
Cover ~TOD = 3.00in h Btm.= 3.00 in
- - 1 .oo ft - -
- - -
-. - Axial Dead Load = 923.0 Ibs Axial Load Eccentricity = 0.8 in - Axial Load Applied to Stem Axial Live Load - 0.0 Ibs
LDesign Summary Stem Constructi0.n Top Stem
Stem OK - ._ . . . - . . Total Bearing Load = 1,778 Ibs Design height ft= 0.00 - - ... resultant ecc. 1.28 in Wall Material Above "Ht" = Concrete - Soil Pressure Q Toe = 566 psf OK Soil Pressure Q Heel = 1.01 5 psf OK
Allowable = 2,500 psf
Soil Pressure Less Than Allowable - ACI Factored Q Toe = 769 psf ACI Factored Q Heel = 1,380 psf
Footing Shear Q Toe = 0.2 psi OK
Footing Shear Q Heel = 2.7 psi OK
93.1 psi - Allowable - - Wall Stability Ratios
Overturning = 11.94 OK - Sliding - 3.94 OK
Sliding Calcs Slab Resists All Sliding !
Lateral Sliding Force = 184.8 Ibs
LFooting Design Results - Toe- Heel c
Factored Pressure = 769 1,380 psf
Mu' : Downward = 0 115 ft#
Actual I-Way Shear = 0.15 2.70 psi
Allow I-Way Shear = 93.1 1 93.1 1 psi
Toe Reinforcing = None Spec'd Heel Reinforcing = None Spec'd
Key Reinforcing = None Spec'd
- Mu' : Upward - 0 0 ft#
Mu: Design - 168 115ft# -
9.00 Thickness -
Rebar Size = #5
Rebar Spacing = 16.00
Rebar Placed at = Edge
- 0.023 WFB + falFa
Total Force @ Section Ibs = 119.0
Moment.. . .Actual ft-#= 167.6
Moment. .. . .Allowable = 7,280.7
Shear. ... .Actual psi = 1.4
Shear ..... Allowable psi = 93.1
Bar Develop ABOVE Ht. in = 21.36
Bar LaplHook BELOW Ht. in = 6.00
Wall Weight = 108.8
Rebar Depth 'd in = 7.19
fm psi =
Fs psi =
Solid Grouting
Special Inspection
Modular Ratio 'n' Short Term Factor -
Masonry Block Type = Normal Weight
fc psi= 3,000.0
FY psi = 60,000.0
Toe: Not req'd, Mu S Fr
Heel: Not req'd, Mu < S Fr Key: No key defined
-
Design Data -
Masonry Data
- - - - - - - - Equiv. Solid Thick. -
Concrete Data
Other Acceptable Sizes 8 Spacings
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: (760) 966-6355
-
Job # YO@
Date: 11:45AM, 24 FEB 05 Title : Fl? Dsgnr:
Description :
Scope :
Page 2 Rev: 560100 User: Kw-0602938, Ver 5.6.1.25-Oct-2002 (c)1983-2002 ENERCALC Engineering Software Rets ng Wall Design u:\yshao\shared\engineering\commerciaRle 1
Description 1 O/S301
1 Summary of Overturning & Resisting Forces & Moments I ..... OVERTURNING ..... ..... RESISTING ..... Force Distance Moment Force Distance Moment Item Ibs ft rt-# Ibs ft ft-#
Heel Active Pressure = 184.8 1.08 200.2 Soil Over Heel - 110.0 2.00 220.0
Toe Active Pressure = Sloped Soil Over Heel =
Surcharge Over Toe = Surcharge Over Heel =
Adjacent Footing Load = Adjacent Footing Load =
Added Lateral Load = Axial Dead Load on Stem = 923.0 1.31 1,206.1
Load @ Stem Above Soil =
SeismicLoad
-
Soil Over Toe
Stem Weight@) - 271.9 1.38 373.8
ResistinglOverturning Ratio = 11.94 Footing Weight - 421.9 1.13 474.6
- - - - Surcharge Over Toe =
Total 184.8 O.T.M. = 200.2 Earth @ Stem Transitions=
- - - -
Key Weight
Vert. Component
- - - - 51.5 2.25 115.9 Vertical Loads used for Soil Pressure = 1,778.3 Ibs
Vertical component of active pressure used for soil pressure Total = 1,778.3 Ibs R.M.= 2,390.4
\
- Sliding Restraint
DL= 923., LL= 0.0005#, Ecc= 0.82005in i
101 5.1 psf
Cantilever Concrete Retaining Wall Design E
sa\ -
Given:
Wall Height, H = br ft.
Wall Thickness, t = 9 in.
Concrete Strength, fc = +XU psi
AxialLoad, N= 2539 # bq0
753+ Eccentricity of N, e = 1.6 in. =
Soil Bearing Capacity for D+L psf
Active Soil Pressure, q, = 3c pcf
Footing Concrete, fc = 179.0 psi
Footing Steel, fy = Le 000 ' psi
Per Enercalc Results,
Footing Dimensions
Footing Depth, D = 15 in.
Footing Width, B = 3 ft.- 4 in.
BL = I ft.- 3 in.
BR = 2 ft.- 6 in.
Footing Reinforcement
At Transverse Direction,
At Longitudinal Direction,
NI
41
Top and Bottom
Top and Bottom
Dunn Savoie Inc. Title : E>- Job # YO@
Structural Engineers
Oceanside, CA 92054
Tel: 1760) 966-6355
- 908 S. Cleveland Street
Dsgnr: GL Date: 2:20PM, 22 FEB 05 Description :
Scope :
Page 1 Rev 560100 User KW-0602938, Ver 5 6 1,25-0ct-2002 (c)1983-2002 ENERCALC Engineering Software Retaining Wall Design u\yshaokhared\engineering\commerciaRlegola 1
Description 15/S301
Retained Height = 8.50ft
Wall height above soil = 0.50 ft
Slope Behind Wall = 0.00 : 1
Height of Soil over Toe = 6.00 in
Soil Density = 110.00 pcf
Wind on Stem = 0.0 psf
I Axial Load Amlied to Stem CI
I Desian Summarv cr
Total Bearing Load = 5,233 Ibs ... resultant ecc. - 2.82 in -
'Soil Data E I Footina Strenaths & Dimensions b
Allow Soil Bearing = 2,500.0 psf
Equivalent Fluid Pressure Method Heel Active Pressure = 35.0
Toe Active Pressure = 0.0 Passive Pressure = 250.0
Water height over heel = 0.0 ft
FootingllSoil Friction = 0.300
Soil height to ignore for passive pressure = 0.00 in
Axial Dead Load = 2,543.0 Ibs - - 0.0 Ibs Axial Live Load
fc = 3,000 psi Fy = 60,OOOpsi
Min. As % = 0.0014
Toe Width Heel Width - 1.25
Total Footing Width = 3.50
15.00 in Footing Thickness
Key Width - 0.00 in
Key Depth - 0.00 in
Key Distance from Toe = 0.00 ft
- - 2.25 ft -
- -
- -
Cover @Top = 3.00 in @ Btm.= 3.00 in
Axial Load Eccentricity = 1.6 in
Soil Pressure @ Toe = 2,097 psf OK Soil Pressure @ Heel = 893 psf OK
Soil Pressure Less Than Allowable Allowable = 2,500 psf
ACI Factored @ Toe = 2,676 psf ACI Factored @ Heel = 1,140 psf
Footing Shear @ Toe = 19.2 psi OK
Footing Shear @ Heel = 11.4 psi OK - Allowable 93.1 psi
- - 2.47 OK Wall Stability Ratios Overturning
Sliding Calcs Slab Resists All Sliding !
- Sliding - 1.17 Ratio 1.5!
Lateral Sliding Force = 1,663.6 Ibs
Top Stem
Stem OK Design height ft= 0.00
LFooting Design Results li
Factored Pressure
Mu' : Upward
Mu' : Downward
Mu: Design
Actual I-Way Shear Allow I-Way Shear
Toe Reinforcing Heel Reinforcing Key Reinforcing
Toe Heel = 2,676 1,140 psf
- 859 591 ft-#
= 5,080 591 ft#
= 19.21 11.41 psi = 93.11 93.11 psi = NoneSpec'd = NoneSpec'd = NoneSpec'd
--
= 5,940 o ft-# -
Wall Material Above "Ht"
Thickness Rebar Size Rebar Spacing
Rebar Placed at
fblFB + falFa
Total Force @ Section
Moment .... Actual
Moment ..... Allowable
Shear ..... Actual
Shear .... .Allowable
Design Data
Concrete
9.00 #5
12.00
Edge
- -
Ibs =
ft-# =
psi =
psi =
- -
0.684
2,149.4
6,564.8
9,601.3
24.9
93.1
Bar Develop ABOVE Ht. in = 21.36
Bar LaplHook BELOW Ht. in = 6.46
Wall Weight = 108.8
Rebar Depth 'd' in = 7.19
fm psi =
Fs psi = Solid Grouting -
Special Inspection - -
Modular Ratio 'n' Short Term Factor -
Equiv. Solid Thick. - Masonry Block Type = Normal Weight
fC psi= 3,000.0
FY psi = 60,000.0
Toe: #4@ 12.50 in, #5@ 19.50 in, #6@ 27.50 in, #7@ 37.50 in, #8@ 48.25 in, #9@ 4 Heel: Not req'd, Mu Key: No key defined
Masonry Data
-
- - - -
Concrete Data
Other Acceptable Sizes 8 Spacings
S Fr
Dunn Savoie Inc. Title
Structural Engineers
908 S. Cleveland Street
Dsgnr: Description :
Job #yo@ Fz3 Date: 2:20PM, 22FEB05
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Page 2 Rev: 560100 User: KW-0602938. Ver 5.6.1, 25Oct-2002 (c)1983-2002 ENERCALC Engineering Sofhvare Can tileve red Retaining Wall Des g " u:\yshao\shared\engineering\commerciaRlegala 1
Description 15/S301
Summary of Overturning & Resisting Forces & Moments I.
c
c
..... OVERTURNING ..... ..... RESISTING ..... Force Distance Moment Force Distance Moment
Item Ibs ft ft-# Ibs ft ft-#
Heel Active Pressure = 1,663.6 3.25 5,406.7 Soil Over Heel - 467.5 3.25 1,519.4
Toe Active Pressure = Sloped Soil Over Heel =
Surcharge Over Toe = Surcharge Over Heel =
Adjacent Footing Load = Adjacent Footing Load =
Added Lateral Load = Axial Dead Load on Stem = 2,543.0 2.49 6,336.3
-
- Load Q Stem Above Soil = Soil Over Toe - 123.8 1.13 139.2
SeismicLoad - Surcharge Over Toe =
Stem Weight@) - 978.8 2.63 2,569.2
ResistinglOverturning Ratio = 2.47 Footing Weight - 656.2 1.75 1,148.4
- -
Total = 1,663.6 O.T.M. = 5,406.7 Earth Q Stem Transitions= -
Key Weight - -
Vert. Component - - 463.7 3.50 1,622.8 Vertical Loads used for Soil Pressure = 5,232.9 Ibs
Vertical component of active pressure used for soil pressure Total = 5,232.9 Ibs R.M.= 13,335.3
Dunn Savoie Inc.
Structural Engineers 908 S. Cleveland St.
Oceanslde, CA 92054
Tel: (760) 966-6355 Fax: (760) 966-6360
JOB
SHEET NO.
CALCULATED BY
LEGO-KNIGHTS QUEST JOB# 04320.00
Fw. OF
Y.S. DATE 2/05
CHECKEDBY 1 I DATE I
SCALE
DESIGN OF PAD FOOTING OF WOOD POSTS
SHEET NO. bts OF DUNN SAVOIE INC.
STRUCTURAL ENGl NEERS
OCEANSIDE, CA 92054
Email: dsi@surfdsi.com
908 S. Cleveland Street CALCULATED BY DATE
PH. (760) 966-6355 FAX (760) 966-6360 CHECKED BY DATE
SCALE
u 5E
908 S. CLEVELAND ST.
STRUCTURAL ENGINEERS OCEANSIDE, CA 92054
DUNN SAVOIE INC.
PH. C7601 966-6355
FX. (7603 966-6360
E-mail: dsiC2surfdsi.com
c
c
/.- -
STRUCTURAL CALCULATIONS
FOR
LEGOLAND-KNIGHTS QUEST
ONE LEG0 DRIVE
CARLSBAD, CALIFORNIA 92008
January, 2005
TABLE OF CONTENTS
ITEM
DESIGN CRITERIA
Category A. DESIGN OF BEAMS AND COLUMNS
Category B. LATERAL ANALYSIS OF STRUCTURE
Category C. ANALYSIS OF DIAPHRAGMS
Category D. DESIGN OF RETAINING WALLS
PAGE
1-4
5-57
58-72
73-79
80-97
Dunn Savoie Inc. Structural Engineers 908 S. Cleveland St.
Oceanslde, CA 92054 Tel: (760) 966-6355 1 Fax: (760) 966-6360
SHEET NO.
CALCULATED BY
CHECKED BY
JOE 1 LEGO-KNIGHTS QUEST 1 JOE# I 04320.00 I
1 OF ?7
Y.S. DATE 1/05
DATE
DESIGN CRITERIA
;ODE:
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland St.
Oceanside, CA 92054
Tel: (760) 966-6355
Fax: (760) 966-6360
JOB Legoland-Knights Quest 04320.00
CALCULATED BY Y.S. DATE 1 I05
SHEET NO z OF
CHECKED BY DATE
SCAl E
1997 Unifrom Building Code (UBC)
2001 California Building Code (CBC)
SEISMIC:
Z= 0.4 (Zone4)
I= 1
SOILTYPE= SC
R= 2.2
Na = 1 .o
Nv = 1.1
Ca = 0.44
V= 2.5 Ca I WIR
V= 0.500 W
VI1.4 = 0.357 W
NIND:
EAST-W EST HEIGHT
EXP B 20
25'
70 MPH 0'-15'
NOOD: 97NDS
2x & 3x Douglas Fir-Larch No. 2
>3x Douglas Fir-Larch No. 1
'OUNDATION CRITERIA
ALLOWABLE SOIL PRESSURE FOR D+L
FRICTION COEFFICIENT
PASSIVE EARTH PRESSURE
ACTIVE EARTH PRESSURE
1
LRFD
ASD
WIND LOAD (PSF)
10.2
11.0
11.8
2500 PSF
0.35
300 PCF
35 PCF
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland St.
Oceanside, CA 92054 Tel: (760) 966-6355
Fax: (760) 966-6360
JOB Legoland-Knights Quest 04320.00
SHEET NO. 3 OF
CALCULATED BY Y.S. DATE 1/05
CHECKED BY DATE
SCALE
,ATERAL ANALYSIS 1
-his building consists of cantilever wood post and concrete shear wall for shear resistence,
-herefore, per UBC 97, for the entire structure,
Seismic Coefficients & Factors:
Seismic Zone : 4
Z= 0.4
SoilType: SC
FaultType: B
I= 1.0
R= 2.2
Na = I .OO
N,= 1.10
Ca= 0.44 * Na= 0.44
C,= 0.56 *N,= 0.616
c,= 0.02
hn= 20
Dist. To Fault = 7.7 km
T = .02(hn).75 = 0.189
R= 2.2 no= 2
per 1997 Uniform Building Code Chapter 16 1630.2.1
Desian Base Shear: (30-4)
V= (C,)(l)(W) = 1.057 W
Needs Not Exceed: (30-5)
V= 2.5(Ca)(I)(W) = 0.357 W
1.4( R)
Minimum Base Shear: (30-6)
V= O.ll(Ca)(l)(W) = 0.048 W
Minimum Base.Shear Ifor Seismic Zone 4): (30-7)
V= 0.8(Z)(Nv)(l)(W) = 0.160 W
+R
Therefore, V = 0.357 W
Dunn Savoie Inc. Structural Engineers
908 S. Cleveland St. Oceanside, CA 92054
Tel: (760) 966-6355 Fax: (760) 966-6360
DEAD LOADS
4" W2 NW Verco
22 GA Deck
JOB Legoland-Knights Quest 04320.00
CALCULATED BY Y.S. DATE 1/05
SHEET NO OF
CHECKED BY DATE
SCALE
(psf)
36.3
1.8
Reducible Reducible
DEAD LOADS
Weather Coating
4x6 Deck
ME&P
Miscellaneous
Z Dead Load
Live Load
(PSf)
1 .o
9.1
1 .o
0.9
12.0
100.0
FENCE
DEAD LOADS (PS9
ISteel Framina I 1.5 I
Two 3x4 Wood Rail
02x4 @ 6' O.C.
ME&P I 1 .o I
0.5
1.5 '
,Miscellaneous
C Dead Load
Miscellaneous
Z Dead Load
1.2
5.0
J,
SHEET NO.
CALCULATED BY
CHECKED BY
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland St. Oceanslde, CA 92054
Tel: (760) 966-6355
Fax: (760) 966-6360
5 OF
Y.S. DATE 1/05
DATE
JOB 1 LEGO-KNIGHTS QUEST I JOB# 1 04320.00
I Lr I I
DESIGN OF BEAMS AND COLUMNS
c
e
c
6
rt b x
m x In -1 L
I
I
-
-
-
...... .. - . ..... .. ..... ....... - .. . .. .... .- ._
Dunn Savoie Inc. Structural Engineers 908 S. Cleveland St. Oceanslde, CA 92054
Tel: (760) 966-6355 Fax: (760) 966-6360
SHEET NO.
CALCULATED BY
BM 0
W
OF Y.S. DATE 1 /05
V+3 #(TL) qS #(TL)
01 #(DL) %I #(DL)
\bt #(LL) fk # (LL)
CHECKED BY
SCALE
BM 0
DATE
w
JOB I Legoland-Knights Quest I I 04320.00 I
I( $ x 7.67' x 1~18 = ~4- PLF (DL)
PLF (DL) r"
PLF (LL) 0
PLF (DL) g x 267'1 r4B = w.
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Job # pOQ
Date: IO: 12AM. 27 JAN 05 Title : Tz- Dsgnr: Description :
Oceanside, CA 92054 Scope :
Tel: (760) 966-6355 - ... .. I Rev: 560100 User: KW-0602938. Ver 5.6.1,25-0ct-2002 (c)1983-2002 ENERCALC Engineering Sohare
Description BM I
I General Information Calculations are designed to 1997 NDS and 1997 UBC Requirements
Section Name 4x6 Center Span 6.75ft . . . . .Lu 0.00 ft Beam Width 3.500 in Left Cantilever ft ..... Lu 0.00 ft Beam Depth 5.500 in Right Cantilever ft ..... Lu 0.00 ft Member Type Sawn Douglas Fir-Larch, No. 1 Fb Base Allow 1,000.0 psi Load Dur. Factor 1.250 Fv Allow 95.0 psi Beam End Fixity Pin-Pin Fc Allow 625.0 psi E 1.700.0 ksi
Center DL 24.00 #Ift LL 48.00 #Ift Left Cantilever DL #Ift LL #in Right Cantilever DL #Ift LL #in
Span= 6.75ft, Beam Width = 3.500in x Depth = 5.5in, Ends are Pin-Pin Max Stress Ratio 0.172 : 1
Maximum Moment 0.4 k-ft Maximum Shear * 1.5
Allowable 2.4 k-ft Allowable
Max. Positive Moment 0.41 k-ft at 3.375 ft Shear: Q Left Max. Negative Moment 0.00 k-ft at 6.750 ft Q Right
Max Q Left Support 0.00 k-ft Camber: Q Left
Max Q Right Support 0.00 k-ft Q Center 1 Max. Mallow 2.39 Reactions ... Q Right
Beam Design OK
0.3 k
2.3 k
0.24 k 0.24 k
0.000 in
0.020 in 0.000 in
278.86 psi fv 16.51 psi Left DL 0.08 k Max 0.24 k 1 pb 1,625.00 psi Fv 118.75 psi Right DL 0.08 k Max 0.24 k
I Deflections h
Center Span ... Dead Load Left Cantilever ... Dead Load Total Load
Deflection -0.014 in -0.041 in Deflection 0.000 in 0.000 in ... Location 3.375 ft 3.375 ft ... LengthlDefl 0.0 0.0
Q Center 0.020 in .. . Lengt h/Defl 0.0 0.0
. . . LengthlDefl 5,960.9 1,986.96 Right Cantilever ...
Camber ( using 1.5 D.L. Defl ) ... Deflection 0.000 in 0.000 in
Q Left 0.000 in
Q Right 0.000 in
Bending Analysis
Ck 29.908 Le 0.000 ft SXX 17.646 in3 Area 19.250 in2 Cf 1.300 Rb 0.000 CI 0.000
Q Center 0.41 k-ft 3.03 in3 1,625.00 psi
Q Left Support 0.00 k-ft 0.00 in3 1,625.00 psi @ Right Support 0.00 k-ft 0.00 in3 1,625.00 psi
Shear Analysis Q Left Support Q Right Support Design Shear 0.32 k 0.32 k
Area Required 2.677 in2 2.677 in2 Fv: Allowable 11 8.75 psi 11 8.75 psi
Max. Left Reaction 0.24 k Bearing Length Req'd 0.111 in
Max. Right Reaction 0.24 k Bearing Length Req'd 0.111 in
Max Moment Sxx Req'd Allowable fb
Bearing @ Supports
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: (760) 966-6355
Job # yOQ
Date: 10:12AM, 27 JAN 05 Title : \3 Dsgnr: Description :
Scope :
Description BM2
Section Name 6x8 Center Span 10.50ft . . . . .Lu 0.00 ft Beam Width 5.500 in Left Cantilever ft ..... Lu 0.00 ft Beam Depth 7.500 in Right Cantilever ft ..... Lu 0.00 ft
Member Type Sawn Douglas Fir-Larch, No. 1
Fb Base Allow 1,000.0 psi Load Dur. Factor 1.250 Fv Allow 95.0 psi Beam End Fixity Pin-Pin Fc Allow 625.0 psi E 1,700.0 ksi
I Point Loads t
Dead Load 81.0 IDS 81.0 IDS 81 .O IDS IDS IDS IDS IDS
Live Load 162.0 Ibs 162.0 Ibs 162.0 Ibs Ibs Ibs . Ibs Ibs ... distance 2.667 ft 5.333 ft 8.000 ft 0.000 ft 0.000 ft 0.000 ft 0.000ft
Span= 10.50ft, Beam Width = 5.500in x Depth = 7.5in, Ends are Pin-Pin
Max Stress Ratio 0.236 1
Maximum Moment 1.3 k-ft Maximum Shear * I .5
Allowable 5.4 k-ft Allowable
Max. Positive Moment . 1.27 k-ft at 5.334 ft Shear: @ Left Max. Negative Moment 0.00 k-ft at 10.500 ft Q Right
Max Q Left Support 0.00 k-ft Camber: @Left
Max Q Right Support 0.00 k-ft Q Center
Max. M allow 5.37
fb 294.41 psi fv 13.46 psi Left DL 0.12 k Max
Fb 1,250.00 psi Fv 118.75 psi Right DL 0.12 k Max
Q Right Reactions ...
I Deflections
0.6 k
4.9 k
0.36 k 0.37 k
0.000 in
0.036 in 0.000 in
0.36 k
0.37 k
Center Span ... Dead Load Total Load Left Cantilever ... Dead Load Total Load
Deflection -0.024 in -0.073 in Deflection 0.000 in 0.000 in ... Location 5.250 ft 5.250 R . , .LengthlDefl 0.0 0.0
Q Center 0.036 in ... LengthlDefl 0.0 0.0
Right Cantilever ... . . . LengthlDefl 5,207.1 1,735.70
Camber ( using 1.5 D.L. Defl ) ... Deflection 0.000 in 0.000 in
@ Left 0.000 in
Q Right 0.000 in \
Bending Analysis
Ck 29.908 Le 0.000 ft SXX 51.563 in3 Area 41.250 in2 Cf 1.000 Rb 0.000 CI 0.000
Q Center 1.27 k-ft 12.14 in3 1,250.00 psi Q Left Support 0.00 k-ft 0.00 in3 1,250.00 psi Q Right Support 0.00 k-ft 0.00 in3 1,250.00 psi
Shear Analysis Q Left Support @ Right Support
Design Shear 0.54 k 0.56 k Area Required 4.531 in2 4.677 in2 Fv: Allowable t 18.75 psi 11 8.75 psi
Max. Left Reaction 0.36 k Bearing Length Req'd 0.104 in
Max. Right Reaction 0.37 k Bearing Length Req'd 0.108 in
Max Moment Sxx Rea'd Allowable fb
Bearing @ Supports
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: (760) 966-6355
Job # PO@
Date: IO: 12AM. 27 JAN 05 Title : It- Dsgnr: Description :
Scope :
Description BM3
Section Name 6x6 Center Span 6.75ft . . . . .Lu 0.00 ft
Beam Width 5.500 in Left Cantilever ft . . . . .Lu 0.00 ft
Beam Depth 5.500 in Right Cantilever ft . . . . .Lu 0.00 ft
Member Type Sawn Douglas Fir-Larch, No. 1
Fb Base Allow 1,000.0 psi Load Dur. Factor 1.250 Fv Allow 95.0 psi Beam End Fixity Pin-Pin Fc Allow 625.0 psi E 1,700.0 ksi
1 Full Lenath Uniform Loads CI
Center DL 24.00 #/ft LL 48.00 #Iff
Left Cantilever DL
Right Cantilever DL
#Ift LL #lft
#lft LL #/ft
idth = 5.500in x Depth = 5.5in, Ends are Pin-Pin
0.142 : 1
0.4 k-ft Maximum Shear * 1.5 0.3 k
2.9 k-ft Allowable 3.6 k
Max. Positive Moment 0.41 k-ft at 3.375 ft Shear: Q Left 0.24 k Max. Negative Moment 0.00 k-ft at 6.750 ft Q Right 0.24 k
Max Q Left Support 0.00 k-ft Camber: @Left 0.000in
0.00 k-ft Q Center 0.013in
Deflection -0,009 in -0.026 in Deflection 0.000 in 0.000 in ... Location 3.375 ft 3.375 ft ... LengthlDefl 0.0 0.0
Q Center 0.013 in .. . LengthlDefl 0.0 0.0
Right Cantilever ... . ..Length/Defl 9,367.1 3,122.37
Camber ( using 1.5 * D.L. Defl ) ... Deflection 0.000 in 0.000 in
Q Left 0.000 in
Q Right 0.000 in
Bending Analysis Ck 29.908 Le 0.000 ft SXX 27.729 in3 Area 30.250 in2 Cf 1.000 Rb 0.000 CI 0.000
Q Center 0.41 k-ft 3.94 in3 1,250.00 psi
Q Left Support 0.00 k-ft 0.00 in3 1,250.00 psi Q Right Support 0.00 k-ft 0.00 in3 1,250.00 psi
Shear Analysis Q Left Support Q Right Support
Design Shear 0.32 k 0.32 k Area Required 2.677 in2 2.677 in2
Fv: Allowable 11 8.75 psi 11 8.75 psi
Max. Left Reaction 0.24 k Bearing Length Req'd 0.071 in
Max. Right Reaction 0.24 k Bearing Length Req'd 0.071 in
Max Moment Sm Rea'd Allowable fb
Bearing @ Supports
JOB I Legoland-Knights Quest I JOB# I 04320.00 I
e
SHEET NO. IY OF
CALCULATED BY Y.S. DATE 1 /05
CHECKED BY DATE
SCALE
1 0 PLF (LL)
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Job # YO@
Date: 10:12AM. 27 JAN 05 Title : 11 Dsgnr: Description :
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Description BM4
I General Information Calculations are designed to 1997 NDS and 1997 UBC Requirements b
Section Name 6x10 Center Span 13.50ft . . . . .Lu 13.50 ft
Beam Width 5.500 in Left Cantilever ft ..... Lu 0.00 ft Beam Depth 9.500 in Right Cantilever ft ..... Lu 0.00 ft Member Type Sawn Douglas Fir-Larch, No. 1 Fb Base Allow 1,000.0 psi Load Dur. Factor 1.250 Fv Allow 95.0 psi Beam End Fixity Pin-Pin Fc Allow 625.0 psi E 1,700.0 ksi
Center DL 10.00 #/ft LL #/ft Left Cantilever DL #/ft LL #/ft Right Cantilever DL #/ft LL #/it
1 Point Loads
Dead Load 408.0 IbS IDS IbS IbS Ibs Ibs Ibs Live Load 818.0 Ibs Ibs Ibs Ibs Ibs Ibs Ibs ... distance 6.750 ft 0.000 ft 0.000 ft 0.000 ft 0.000 ft 0.000 ft 0.000ft
Beam Design OK
Span= 13.5Oft, Beam Width = 5.500in x Depth = 9.5in, Ends are Pin-Pin
Max Stress Ratio 0.511 1
Maximum Moment 4.4 k-ft Maximum Shear * 1.5 Allowable 8.5 k-ft Allowable
Max. Positive Moment 4.37 k-ft at 6.750 ft Shear: Q Left Max. Negative Moment 0.00 k-ft at 0.000 ft Q Right
Max @ Left Support 0.00 k-ft Camber: @Left
Max @ Right Support 0.00 k-ft Q Center
Max. M allow 8.54
tb 633.23 psi fv 19.32 psi Left DL 0.27 k Max
Fb 1,238.58 psi Fv 118.75 psi Right DL 0.27 k Max
Q Right Reactions ...
1 Deflections
1.0 k
6.2 k
0.68 k 0.68 k
0.000in 0.098in 0.000 in
0.68 k
0.68 k
Total Load
Deflection -0.065 in -0.174 in Deflection ' 0.000 in 0.000 in ... Location 6.750 ft 6.750 ft . . . LengthlDefl 0.0 0.0
Q Center 0.098 in .. .Length/Defl 0.0 0.0
2,481.6 932.45 Right Cantilever ... .. .Length/Defl
Camber ( using 1.5 D.L. Deft ) ... Deflection 0.000 in 0.000 in
Q Left 0.000 in
Q Right 0.000 in
Dunn Savoie Inc.
Structural Engineers
c 908 S. Cleveland Street
Title : Job # yo@ Dsgnr: '' Date: 10:12AM, 27 JAN 05
Description :
Oceanside, CA 92054 Scope : Tel: (760) 966-6355 -
Description BM4
Bending Analysis Ck 29.908 Le 24.830 ft SXX 82.729 in3 Area 52.250 in2 Cf 1.000 Rb 9.675 CI 0.991
Q Center 4.37 k-ft 42.30 in3 1,238.58 psi
Q Left Support 0.00 k-ft 0.00 in3 1,250.00 psi
Q Right Support 0.00 k-ft 0.00 in3 1,250.00 psi
Shear Analysis Q Left Support Q Right Support
Design Shear 1.01 k 1.01 k
Area Required 8.500 in2 8.500 in2 Fv: Allowable 11 8.75 psi 118.75 psi
Max. Left Reaction 0.68 k Bearing Length Req'd 0.198 in
Max. Right Reaction 0.68 k Bearing Length Req'd 0.198 in
Max Moment Sxx Rea'd Allowable fb
Bearing Q Supports
-
M, V, & D @ Specified Locations Moment Shear Deflection - Q Center Span Location = 0.00 ft 0.00 k-fl 0.68 k 0.0000 in
0.0000 in Q Right Cant. Location = 0.00 ft 0.00 k-ft 0.00 k
0.0000 in Q Left Cant. Location = 0.00 ft 0.00 k-ft 0.00 k
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Job # YO@
Date: 10:12AM, 27 JAN 05 Title : 1% Dsgnr: Description :
Oceanside, CA 92054 Scope :
I General Information Calculations are designed to 1997 NDS and 1997 UBC Requirements
Section Name 6x10 Center Span 9.00ft . . . . .Lu 0.00 ft Beam Width 5.500 in Left Cantilever ft . . , . .Lu 0.00 ft Beam Depth 9.500 in Right Cantilever ft . . . . .Lu 0.00 -ft
Member Type Sawn Douglas Fir-Larch, No. 1 Fb Base Allow 1,000.0 psi Load Dur. Factor 1.000 Fv Allow 95.0 psi Beam End Fixity Pin-Pin Fc Allow 625.0 psi
E 1,700.0 ksi
Center DL 43.00 #/ft LL 86.00 #/ft Lift Cantilever DL Right Cantilever DL
#/ft LL #/ft
#/ft LL #/ft
I Span= 9.00ft, Beam Width = 5.500in x Depth = 9.5in, Ends are Pin-Pin
Max Stress Ratio
Maximum Moment AI Iowa ble
Max. Positive Moment Max. Negative Moment
Max @ Left Support
Max @ Right Support
Max. M allow
fb 189.46 psi
Fb 1,000.00 psi
0.189 1
1.3 k-ft Maximum Shear * 1.5
Allowable 6.9 k-ft
1.31 k-ft at 4.500 ft Shear: Q Left 0.00 k-ft at 9.000 ft Q Right
0.00 k-ft Camber: @Left
0.00 k-ft Q Center
6.89 @ Right Reactions.. .
fv 13.87 psi Left DL 0.19 k Max
Fv 95.00 psi Right DL 0.19 k Max
Beam Design OK
0.7 k
5.0 k
0.58 k 0.58 k
0.000 in
0.014in 0.000 in
0.58 k
0.58 k
Deflection -0.01 0 in -0.029 in Deflection 0.000 in 0.000 in ... Location 4.500 ft 4.500 ft . . . LengthlDefl 0.0 0.0
@ Center 0.014 in . ..LengthlDefl 0.0 0.0
. . . LengthlDefl 11,366.2 3,788.73 Right Cantilever ...
Camber ( using 1.5 * D.L. Defl ) ... Deflection 0.000 in 0.000 in
Q Left 0.000 in
Bending Analysis Ck 33.438 Le 0.000 ft SXX 82.729 in3 Area 52.250 in2 Cf 1.000 Rb 0.000 CI 0.000
Q Center 1.31 k-ft 15.67 in3 1,000.00 psi Q Left Support 0.00 k-ft 0.00 in3 1,000.00 psi
Q Right Support 0.00 k-ft 0.00 in3 1,000.00 psi
Shear Analysis Q Left Support Q Right Support
Design Shear 0.72 k 0.72 k Area Required 7.626 in2 7.626 in2
Fv: Allowable 95.00 psi 95.00 psi
Max. Left Reaction 0.58 k Bearing Length Req'd 0.169 in
Max. Right Reaction 0.58 k Bearing Length Req'd 0.169 in
Max Moment Sxx Rea'd Allowable fb
Bearing @ Supports
BM @A
JOB
SHEET NO.
W ip
Legoland-Knights Quest # 04320.00
I? OF
CALCULATED BY Y.S. DATE 1 /05
c ' 1139 # (TL) &L # (TL)
'363 #(DL) 182 # (DL)
774 #(LL) 360 # (LL) -
W=
W= I
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: (760) 966-6355
Job # yOQ
Date: 9:22AM, 31 JAN 05 Title : zo Dsgnr: Description :
Scope :
Description BMSa
Section Name Prllm: 5.25x18.0 Center Span 20.00ft . . . . .Lu 0.00 ft
Beam Width 5.250 in Left Cantilever 1.50ft . . . . .Lu 0.00 ft
Beam Depth 18.000 in Right Cantilever ft . . . . .Lu 0.00 ft
Member Type Douglas Fir-Larch, No. 1
Fb Base Allow 1,000.0 psi Load Dur. Factor 1.250 Fv Allow 95.0 psi
Beam End Fixity Pin-Pin Fc Allow 625.0 psi E 1,700.0 ksi
I Full Lenath Uniform Loads c
Center DL 23.00 #/R LL 46.00 #Ift Left Cantilever DL #rn LL #/ft Right Cantilever DL 23.00 #/ft LL 46.00 #Ift
Dead Load 1,282.0 Ibs Ibs Ibs Ibs Ibs Ibs ' Ibs
Live Load 2,625.0 Ibs Ibs Ibs Ibs Ibs Ibs Ibs ... distance 11 .ooo ft 0.000 ft 0.000 ft 0.000 ft 0.000 ft 0.000 ft 0.000ft
Beam Design OK
Span= 20.00ft, Left Cant= 1.50ft, Beam Width = 5.250in x Depth = 18.in, Ends are Pin-Pin
Max Stress Ratio 0.770 1
Maximum Moment 22.7 k-ft Maximum Shear * 1.5
Allowable Allowable 29.5 k-ft
Max. Positive Moment 22.73 k-ft at 10.987 ft Shear: Q Left Max. Negative Moment 0.00 k-ft at 20.000 ft Q Right
Max Q Left Support 0.00 k-ft Camber: @Left
Max @ Right Support ' 0.00 k-ft Q Center Q Right Max. M allow 29.53
Max fb 962.26 psi fv 43.46 psi Left DL
Fb 1,250.00 psi Fv 118.75 psi Right DL 0.94 k Max
Reactions. ..
0.81 k
I Deflections
4.1 k
11.2 k
2.45 k 2.84 k
0.033in
0.155in 0.000 in
2.45 k
2.84 k
Deflection -0.1 03 in -0.313 in Deflection 0.022 in 0.066 in ... Location 10.300 ft 10.300 fl .. .Lengt hlDefl 1,657.6 545.7
Q Center 0.155 in . . . Lengt hIDefl 0.0 0.0
Right Cantilever ... . . . LengthIDefl 2,328.6 766.30
Camber ( using 1.5 D.L. Defl ) ... Deflection 0.000 in 0.000 in
Q Left 0.033 in
Q Right 0.000 in
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: 1760) 966-6355
Title : Job # yo@
Date: 9:22AM, 31 JAN 05 Dsgnr:
Description :
Scope :
Description BM6a
Section Name 6x10 Center Span 8.50ft . . . . .Lu 0.00 ft Beam Width 5.500 in Left Cantilever ft . . . . .Lu 0.00 ft Beam Depth 9.500 in Right Cantilever 1.50ft . . . . .Lu 0.00 ft Member Type Sawn Douglas Fir-Larch, No. 1 Fb Base Allow 1,000.0 psi Load Dur. Factor 1.250 Fv Allow 95.0 psi
Beam End Fixity Pin-Pin Fc Allow 625.0 psi E 1,700.0 ksi
Center DL 20.00 #lft LL 39.00 #lft
#lft 39.00 #/ft Left Cantilever DL #/R LL , Right Cantilever DL 20.00 #m LL
Live Load 750.0 Ibs Ibs Ibs Ibs Ibs Ibs Ibs ... distance 2.000 ft 0.000 ft 0.000 ft 0.000 ft 0.000 ft 0.000 ft 0.000ft
Beam Design OK
Span= 8.5Oft, Right Cant= 1.50R, Beam Width = 5.500in x Depth = 9.5in, Ends are Pin-Pin
Max Stress Ratio 0.258 1
Maximum Moment 2.1 k-ft Maximum Shear * 1.5
Allowable 8.6 k-ft Allowable
Max. Positive Moment 2.lOk-ft at 1.995 ft Shear: Q Left Max. Negative Moment -0.02 k-ft at 8.500 ft Q Right
Max Q Left Support 0.00 k-ft Camber: Q Left
Max Q Right Support -0.07 k-ft Q Center
Max. M allow 8.62
fb 304.42 psi fv 30.60 psi Left DL 0.37 k Max
Fb 1,250.00 psi Fv 118.75 psi Right DL 0.21 k Max
Q Right Reactions ...
1 Deflections
1.6 k
6.2 k
1.11 k 0.52 k
0.000 in
0.01 7 in
0.008in
1.11 k
0.61 k
Total Load
Deflection -0.012 in -0.035 in Deflection 0.000 in 0.000 in ... Location 3.871 n 3.871 ft . . . LengthlDefl 0.0 0.0
Right Cantilever ... ... LengthlDefl 8,838.7 2,929.33
Camber ( using 1.5 * D.L. Defl ) ... Deflection 0.005 in 0.017 in Q Center 0.017 in .. .Length/Defl 6,581.6 2,133.0 Q Left 0.000 in
Q Right 0.008 in
c JOB
CALCULATED BY
SHEET NO.
CHECKED BY
SCALE
Ounn Savoie Inc. Structural Engineers 908 S. Cleveland St. Oceanside, CA 92054
Tel: (760) 966-6355 Fax: (760) 966-6360
Legoland-Knights Quest JOB # 04320.00
22, OF
Y.S. DATE 1/05
DATE
PI =
I 2.
. BMO
W
W
I k5’ 21
USE 6x10 , D/C=
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Job # YO@
Date: 10:12AM, 27 JAN 05 Title : 23 Dsgnr:
Description :
Oceanside, CA 92054 Scope :
Tel: (760) 966-6355
Description BM6
I General Information Calculations are designed to 1997 NDS and 1997 UBC Requirements
Section Name 6x14 Center Span 19.50ft . . , . .Lu 0.00 ft
Beam Width 5.500 in Left Cantilever 1.50ft . . . . .Lu 0.00 ft Beam Depth 13.500 in Right Cantilever ft ..... Lu 0.00 ft Member Type Sawn Douglas Fir-Larch, No. 1 Fb Base Allow 1,000.0 psi Load Dur. Factor 1.250 Fv Allow 95.0 psi Beam End Fixity Pin-Pin Fc Allow E 625.0 psi 1,700.0 ksi
Center DL 43.00 #M LL 86.00 #/ft Left Cantilever DL 43.00 #M LL 86.00 #/ft Right Cantilever DL #lft LL #/ft
1 Point Loads
Dead Load 1,022.0 Ibs 271 .O Ibs Ibs Ibs Ibs Ibs Ibs
Live Load 2,035.0 Ibs 409.0 Ibs Ibs Ibs Ibs Ibs Ibs ... distance 17.500 ft 10.500 ft 0.000 ft 0.000 ft 0.000 ft 0.000 ft 0.000R
I Span= 19.50ft, Left Cant= 1.50ft, Beam Width = 5.500in x Depth = 13.5in, Ends are Pin-Pin
Max Stress Ratio
Maximum Moment Allowable
Max. Positive Moment Max. Negative Moment
Max Q Left Support
Max Q Right Support
Max. M allow
tb 908.91 psi
Fb 1,233.75 psi
0.737 1
12.7 k-ft
17.2 k-ft Allowable
Maximum Shear * 1.5
12.65 k-ft at 10.545 ft Shear: Q Left -0.05 k-ft at 0.000 ft @ Right
-0.1 5 k-ft Camber: @Left
0.00 k-ft Q Center
17.18 Q Right Reactions ...
rv 85.34 psi Left DL 0.72 k Max
Fv 118.75 psi Right DL 1.48 k Max
Beam Design OK
6.3 k
8.8 k
1.89k 4.36 k
0.049 in
0.229in 0.000 in
2.09 k
4.36 k I I Deflections
Dead Load Total Load
Deflection -0.1 53 in -0.442 in Deflection 0.033 in 0.095 in ... Location 10.210ft 10.21 0 ft . . . Lengt hlDefl 1,095.4 377.2 . . . LengthIDefl 1,530.4 529.42 Right Cantilever ...
Center Span ... Dead Load Total Load Left Cantilever ...
Camber ( using 1.5 * D.L. Defl ) ... Deflection 0.000 in 0.000 in
@ Center 0.229 in . . . Length/Defl 0.0 0.0 @ Left 0.049 in
Q Right 0.000 in
Y
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job # yo@
Dsgnr: Date: 10:12AM, 27 JAN 05
Description :
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Description BM6
I Stress Calcs C
Bendina Analysis - Ck 29.908 Le 0.000 ft SXX 167.063 in3 Area 74.250 in2 Cf 0.987 Rb 0.000 CI 0.000 Max Moment Sxx Rea'd Allowable fb
Q Center 12.65 k-ft 123.08 in3 1,233.75 psi
Q Left Support 0.15 k-ft 1.41 in3 1.233.75 psi
Q Right Support 0.00 k-ft 0.00 in3 1,233.75 psi
Shear Analysis Q Left Support Q Right Support
Design Shear 2.63 k 6.34 k
Area Required 22.133 in2 53.363 in2
Fv: Allowable 118.75 psi 118.75 psi
Max. Left Reaction 2.09 k Bearing Length Req'd 0.607 in
Max. Right Reaction 4.36 k Bearing Length Req'd 1.270 in
Bearing @ Supports
M, V, a D @ Specified Locations Moment Shear Deflection
Center-Span Location = 0.00 ft -0.15k-ft
Q Right Cant. Location = 0.00 ft 0.00 k-ft
Q Left Cant. Location = 0.00 ft -0.15 k-ft
1.89 k 0.0000 in
0.00 k 0.0000 in
1.89 k 0.0000 in
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job # jiO@
Dsgnr: %- Date: 10:12AM, 27 JAN 05 Description :
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Description BM6-2
I General Information Calculations are designed to 1997 NDS and 1997 UBC Requirements
Section Name 5.125x12.0 Center Span 19.50ft . . . . .Lu 0.00 ft
Beam Width 5.125 in Left Cantilever 1.50ft . . . . .Lu 0.00 ft Beam Depth 12.000 in Right Cantilever ft ..... Lu 0.00 ft
Member Type GluLam Douglas Fir GLB, 24F V8 Fb Base Allow 2,400.0 psi
Load Dur. Factor 1 .ooo Fv Allow 190.0 psi Beam End Fixity Pin-Pin Fc Allow 560.0 psi E 1,800.0 ksi
Center DL 43.00 #Ift LL 86.00 #/ft
Left Cantilever DL 43.00 #/ft LL 86.00 #ift
Dead Load 1,022.0 Ibs 271 .O Ibs Ibs Ibs Ibs Ibs Ibs Live Load 2,035.0 Ibs 409.0 Ibs lbs Ibs Ibs Ibs Ibs ... distance 17.500 ft 10.500 ft 0.000 ft 0.000 ft 0.000 ft 0.000 ft 0.oooft
Beam Design OK
Span= 19.5Oft, Left Cant= 1.50ft, Beam Width = 5.125in x Depth = 12.in. Ends are Pin-Pin Max Stress Ratio 0.545 : 1
Maximum Moment 12.7 k-ft Maximum Shear * 1.5
Allowable 24.6 k-fi Allowable
Max. Positive Moment 12.65 k-ft at 10.545 ff Shear: Q Left Max. Negative Moment -0.05 k-ft at 0.000 ft Q Right
Max Q Left Support -0.15 k-ft Camber: @Left
Max @ Right Support 0.00 k-ft Q Center
24.60 Reactions.. . Max. M allow
fb 1,234.51 psi fv 103.56 psi Left DL 0.72 k Max
Fb 2,400.00 psi Fv 190.00 psi Right DL 1.48 k Max
' Q Right
6.4 k
11.7 k
1.89k 4.36 k
0.071 in
0.331 in 0.000 in
2.09 k
4.36 k
Center Span ... Dead Load Total Load Left Cantilever ... Dead Load Total Load
Deflection -0.221 in -0.638 in Deflection 0.047 in 0.138 in ... Location 10.210 ft 10.210 ft ... LengthlDefl 759.1 261.4 . . . LengthlDefl 1,060.5 366.86 Right Cantilever ...
Camber ( using 1.5 * D.L. Defl ) ... Deflection 0.000 in 0.000 in @ Center 0.331 in .. .Length/Defl 0.0 0.0 Q Left 0.071 in
Q Right 0.000 in
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job # jiOQ Dsgnr: d) Date: 10:12AM, 27 JAN 05 Description :
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Description BM6-2
I Stress Calcs b
Bending Analysis Ck 22.210 Le cv 1.000 Rb
Q Center Q Left Support
Q Right Support
Shear Analysis
Design Shear
Area Required
Fv: Allowable
Bearing @ Supports
Max. Left Reaction
Max. Right Reaction
0.000 ft 0.000
Max Moment
12.65 k-ft 0.15 k-ft
0.00 k-ft
@ Left Support
2.66 k
14.004 in2
190.00 psi
2.09 k
4.36 k
SXX 123.000 in3 Area 61.500 in2 CI 0.000 Sxx Req'd Allowable tb
63.27 in3 2,400.00 psi
0.73 in3 2,400.00 psi
0.00 in3 2,400.00 psi
Q Right Support
6.37 k
33.522 in2
190.00 psi
Bearing Length Req'd 0.727 in
Bearing Length Req'd 1.521 in
M, V, 8 D @ Specified Locations Moment Shear Deflection
Q Center Span Location = 0.00 ft -0.15 k-ft
Q Left Cant. Location = 0.00 ft -0.15 k-ft
Q Right Cant. Location = 0.00 ft 0.00 k-ft 1.89 k 0.0000 in
0.00 k 0.0000 in
1.89 k 0.0000 in
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job #yo@
Dsgnr: Date: 10:12AM, 27 JAN 05
Description :
Oceanside, CA 92054 Scope :
I General Information Calculations are designed to 1997 NDS and 1997 UBC Requirements
Section Name 4x8 Center Span 17.50ft . . . . .Lu 0.00 ft
Beam Width 3.500 in Left Cantilever 1.50ft . . . . .Lu 0.00 ft Beam Depth 7.250 in Right Cantilever ft .... .Lu 0.00 ft Member Type Sawn Douglas Fir-Larch, No. 1 Fb Base Allow 1,000.0 psi Load Dur. Factor 1.250 Fv Allow 95.0 psi Beam End Fixity Pin-Pin Fc Allow E 625.0 psi 1,700.0 ksi
Center DL 26.00 '#/ft LL 51.00 #Ift Left Cantilever DL 26.00 #/ft LL 51.00 #Ift
Right Cantilever DL #/ft LL #lft
Span= 17.50ft, Left Cant= 1.50ft, Beam Width = J.500in x Depth = 7.25in. Ends are Pin-Pin Max Stress Ratio 0.706 : 1
Maximum Moment 2.9 k-ft Maximum Shear * 1.5
Allowable 4.2 k-ft Allowable
Max. Positive Moment 2.93 k-ft at 8.788 ft Shear: Q Left Max. Negative Moment -0.03 k-ft at 0.000 ft Q Right
Max Q Left Support -0.09 k-ft Camber: Q Left
Max @ Right Support 0.00 k-ft Q Center
@ Right Reactions. .. Max. M allow 4.15
fb 1,147.91 psi fif 37.71 psi Left DL 0.27 k Max
Fb 1,625.00 psi . FV 118.75 psi Right DL 0.23 k Max
Beam Design OK
1.0 k
3.0 k
0.68 k 0.67 k
0.llOin
0.428 in 0.000 in
0.79 k
0.67 k
I Deflections
Total Load Center Span ... Dead Load Total Load Left Cantilever ... Dead Load
Deflection -0.285 in -0.855 in Deflection 0.073 in 0.222 in ... Location 8.788 ft 8.788 ft . . . LengthlDefl 491.2 162.0 ... LengthlDefl 736.2 245.67 Right Cantilever ...
Camber ( using 1.5 * D.L. Defl ) ... Deflection 0.000 in 0.000 in Q Center 0.428 in . . . Lengt hlDefl 0.0 0.0
1 Stress Calcs k
Q Left 0.110 in
Q Right 0.000 in
Bending Analysis - Ck 29.908 Le 0.000 ft SXX 30.661 in3 Area 25.375 in2 Cf 1.300 Rb 0.000 CI 0.000
@ Center
Q Left Support
@ Right Support
Shear Analysis
Design Shear
Area Required Fv: Allowable
Bearing @ Supports
Max. Left Reaction
Max. Right Reaction
Max Moment
2.93 k-ft
0.09 k-ft
0.00 k-ft
Q Left Support
0.96 k
8.057 in2
118.75 psi
0.79 k 0.67 k
Sxx Rea'd Allowable fb
21.66 in3 1,625.00 psi
0.64 in3 1,625.00 psi
0.00 in3 1,625.00 psi
Q Right Support
0.95 k
7.974 in2
I 18.75 psi
Bearing Length Req'd 0.363 in
Bearing Length Req'd 0.307 in
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Job # yo@
Date: 10: 12AM, 27 JAN 05 Title : 2A Dsgnr: Description :
ScoDe : Tel: (760) 966-6355
Description BM8
I General Information Calculations are designed to 1997 NDS and 1997 UBC Requirements b
Section Name 6x10 Center Span 11.50ft . . . . .Lu 0.00 ft
Beam Width 5.500 in Left Cantilever 4.00ft . . . . .Lu 0.00 ft
Beam Depth 9.500 in Right Cantilever ft ..... Lu 0.00 ft
Member Type Sawn Douglas Fir-Larch, No. 1
Fb Base Allow 1,000.0 psi
Load Dur. Factor 1.250 Fv Allow 95.0 psi
Beam End Fixity Pin-Pin Fc Allow 625.0 psi
E 1,700.0 ksi
Center DL 128.00 #/ft LL 255.00 #lft
Left Cantilever DL
Right Cantilever DL
#Ift LL #Ift
#/ft LL #/ft
#1 DL Q Left #lft LLQ Left #lft Start LOC -4.000 ft
DL Q Right 128.00 #/ft LL Q Right 255.00 #Ift End LOC 0.000 ft
Beam Design OK
Span= 11.5Oft. Left Cant= 4.0oR, Beam Width = 5.500in x Depth = 9.5in, Ends are Pin-Pin Max Stress Ratio 0.715 : 1
Maximum Moment 6.2 k-fl Maximum Shear * I .5
Allowable 8.6 k-ft Allowable
Max. Positive Moment 6.16 k-ft at 5.812 ft Shear: Q Left Max. Negative Moment -0.34 k-ft at 0.000 ft Q Right
Max Q Left Support -1.02 k-ft Camber: Q Left
Max Q Right Support 0.00 k-R Q Center
Max. M allow 8.62
fb 893.79 psi fv 57.61 psi Left DL 1.02 k Max
Fb 1,250.00 psi Fv 118.75 psi Right DL 0.71 k Max
Q Right Reactions.. .
3.0 k
6.2 k
2.29 k 2.17k
0.099 in
0.102 in 0.000in
3.06 k
2.17 k
Deflection -0.068 in -0.218 in Deflection 0.066 in 0.229 in ... Location 5.812 ft 5.750 ft . . . LengthlDefl 1,454.1 418.5 . . . LengthlDefl 2,025.9 632.14 Right Cantilever ...
Camber ( using 1.5 * D.L. Defl ) ... Deflection . 0.000 in 0.000 in @ Center 0.102 in . . . LengthlDefl 0.0 0.0 Q Left 0.099 in
@ Right 0.000 in
Bending Analysis
Ck 29.908 Le 0.000 ft sxx 82.729 in3 Area 52.250 in2 Cf 1.000 Rb 0.000 CI 0.000
Q Center 6.16 k-ft 59.15 in3 1,250.00 psi @ Left Support 1.02 k-ft 9.81 in3 1,250.00 psi
Q Right Support 0.00 k-ft 0.00 in3 1,250.00 psi
Shear Analysis Q Left Support @ Right Support Design Shear 3.01 k 2.83 k
Area Required 25.350 in2 23.854 in2 Fv: Allowable 118.75 psi 118.75 psi
Max. Left Reaction 3.06 k Bearing Length Req'd 0.889 in
Max. Right Reaction 2.17 k Bearing Length Req'd 0.632 in
Max Moment Sxx Rea'd Allowable fb
Bearing Q Supports
Dunn Savoie Inc. Structural Engineers
908 S. Cleveland St. Oceanside, CA 92054 Tel: (760) 966-6355 Fax: (760) 966-6360
SHEET NO.
CALCULATED BY
BM 0
u\ I OF
Y.S. DATE 1/05 ,
w
CHECKED BY
JOB I Legoland-Knights Quest 1 I 04320.00 I --I* I I
DATE
W= {
USE 6x6
W
$x 3’ KIM3 = 27 PLF (DL) I W=
c
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: 1760) 966-6355
Job # yUQ
Date: 10:13AM, 27 JAN 05 30 Title :
Dsgnr: Description :
Scope :
Description BM9
Section Name 6x8 Center Span 11.50ft . . . . .Lu 0.00 ft
Beam Width 5.500 in Left Cantilever ft . . . . .Lu 0.00 ft
Beam Depth 7.500 in Right Cantilever ft ..... Lu 0.00 ft
Member Type Sawn Douglas Fir-Larch, No. 1
Fb Base Allow 1,000.0 psi
Load Dur. Factor 1.250 Fv Allow 95.0 psi
Beam End Fixity Pin-Pin Fc Allow 625.0 psi E 1,700.0 ksi
Center DL 92.00 #Ift LL 183.00 #/ft
Left Cantilever DL
Right Cantilever DL
#lft LL #/ft #/ft LL #lft
Beam Design OK
Width = 5.500in x Depth = 7.5in, Ends are Pin-Pin
Max Stress Ratio
Maximum Moment Allowable
Max. Positive Moment Max. Negative Moment
Max Q Left Support
Max Q Right Support
Max. M allow
fb 1,058.00 psi
Fb 1,250.00 psi
0.846 1
4.5 k-ft
5.4 k-ft Allowable
Maximum Shear * 1.5
4.55 k-ft at 5.750 ft Shear: Q Left 0.00 k-ft at 11 500 ft Q Right
0.00 k-ft Camber: @Left 0.00 k-ft
5.37
Q Center
Q Right Reactions ...
fv 51.52 psi Left DL 0.53 k Max
Fv 118.75 psi Right DL 0.53 k Max
2.1 k
4.9 k
1.58k 1.58k
0.000 in
0.165in
0.000in
1.58 k
1.58 k
Deflection -0.110 in -0.329 in Deflection 0.000 in 0.000 in ... Location 5.750 ft 5.750 ft . . . LengthlDefl 0.0 0.0
Q Center 0.165 in . . . LengthlDefl 0.0 0.0
. . . LengthlDefl 1,253.0 419.18 Right Cantilever ...
Camber ( using 1.5 * D.L. Defl ) ... Deflection 0.000 in 0.000 in
@ Left 0.000 in
Bending Analysis Ck 29.908 Le 0.000 ft SXX 51.563 in3 Area 41.250 in2 Cf 1.000 Rb 0.000 CI 0.000
Q Center
Q Left Support
@ Right Support
Shear Analysis Design Shear
Area Required Fv: Allowable
Bearing @ Supports
Max. Left Reaction
Max. Right Reaction
Max Moment
4.55 k-ft
0.00 k-ft
0.00 k-ft
Q Left Support
2.13 k
17.896 in2
118.75 psi
1.58 k 1.58 k
Sxx Rea'd Allowable fb
43.64 in3 1,250.00 psi
0.00 in3 1,250.00 psi
0.00 in3 1,250.00 psi
Q Right Support
2.13 k
17.896 in2
118.75 psi
Bearing Length Req'd 0.460 in
Bearing Length Req'd 0.460 in
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job # yo@ Dsgnr: '' Date: 10:13AM, 27 JAN 05
Description :
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Description BMlO
Section Name 4x6 Center Span ll.00ft . . . , .Lu 0.00 ft
Beam Width 3.500 in Left Cantilever ft ..... Lu 0.00 ft
Beam Depth 5.500 in Right Cantilever 1.50ft . . . . .Lu 0.00 ft Member Type Sawn Douglas Fir-Larch, No. 1
Fb Base Allow 1,000.0 psi Load Dur. Factor 1.250 Fv Allow 95.0 psi
Beam End Fixity Pin-Pin Fc Allow 625.0 psi
E 1,700.0 ksi
Center DL 27.00 #/ft LL 54.00 #/ft
Left Cantilever DL #m LL #lft
Right Cantilever DL 27.00 #lft LL 54.00 #Ift
Span= 1 l.OOft, Right Cant= 1.50ft, Beam Width = 3.500in x Depth = 5.5in. Ends are Pin-Pin
Max Stress Ratio 0.506 : 1
Maximum Moment 1.2 k-ft Maximum Shear * 1.5
Allowable 2.4 k-ft Allowable
Max. Positive Moment 1.21 k-ft at 5.450 ft Shear: Q Left Max. Negative Moment -0.03 k-ft at 11 .OOO ft @ Right
Max Q Left Support 0.00 k-ft Camber: @Left
Max Q Right Support -0.09 k-ft Q Center
Max. M allow 2.39 Q Right Reactions ...
Beam Design OK
0.6 k
2.3 k
0.44 k 0.45 k
0.000 in
0.1 55 in
0.063 in
822.84 psi fv 32.52 psi Left DL 0.15 k Max 0.44 k 1 Fb 1,625.00 psi Fv 118.75 psi Right DL 0.19 k Max 0.58 k
Deflection -0.103 in -0.319 in Deflection 0.000 in 0.000 in ,..Location 5.450 ft 5.500 ft ... LengthlDefl 0.0 0.0 . .. LengthlDefl 1,281.5 414.27 Right Cantilever ...
Camber ( using 1.5 * D.L. Defl ) ... Deflection 0.042 in 0.132 in
Q Center 0.155 in . . . LengthlDefl 858.5 272.1 Q Left 0.000 in
0.063 in
Bending Analysis
Ck 29.908 Le 0.000 ft SXX 17.646 in3 Area 19.250 in2 Cf 1.300 Rb 0.000 CI 0.000
Q Center 1.21 k-ft 8.94 in3 1,625.00 psi
Q LeftSupport 0.00 k-ft 0.00 in3 1,625.00 psi Q Right Support 0.09 k-ft 0.67 in3 1,625.00 psi
Shear Analysis Q Left Support Q Right Support Design Shear 0.61 k 0.63 k
Area Required 5.132 in2 5.272 in2 Fv: Allowable 218.75 psi I1 8.75 psi
Max. Left Reaction 0.44 k Bearing Length Req'd 0.202 in
Max. Right Reaction 0.58 k Bearing Length Req'd 0.263 in
Max Moment Sxx Rea'd Allowable fb
Bearing @ Supports
BM 8
W
JOB Legoland-Knights Quest JOB # 04320.00
CALCULATED BY Y.S. DATE 1/05
, SHEETNO "32 OF
+I.'+
BM 8
W
BM 8
I
I+ IP W
CHECKEDBY I I DATE
SCALE
I
PLF (DL)
PLF (LL) w= I (6 ~5' %I418 = 54-
ATL
W=
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Job # YO@ Date: 10:13AM, 27 JAN 05 Title : 33, Dsgnr:
Description :
Scope : Tel: (760) 966-6355
~ ~. Rev: 560100 User: KW-0602938 Ver 5.6.1 25-Oct-2002
Description BMI 1
1 General Information Calculations are designed to 1997 NDS and 1997 UBC Requirements
Section Name 6x8 Center Span 12.00R . . , . .Lu 0.00 ft Beam Width 5.500 in Left Cantilever ft . . . . .Lu 0.00 ft Beam Depth 7.500 in Right Cantilever ft ..... Lu 0.00 ft Member Type Sawn Douglas Fir-Larch, No. 1 Fb Base Allow 1,000.0 psi
Load Dur. Factor 1.250 Fv Allow 95.0 psi
Beam End Fixity Pin-Pin Fc Allow 625.0 psi
E 1,700.0 ksi
-
Center DL 63.00 #/R LL 125.00 #/ft
Left Cantilever DL #/it LL #Iff
Right Cantilever DL #/ft LL #Iff
Span= 12.00ft, Beam Width = 5.500in x Depth = 7.511, Ends are Pin-Pin
Max Stress Ratio 0.630 1
Maximum Moment 3.4 k-ft Maximum Shear * 1.5
Allowable 5.4 k-ft Allowable
Max. Positive Moment 3.38 k-ft at 6.000 ft Shear: @ Left Max. Negative Moment 0.00 k-ft at 0.000 ft @ Right
Max Q Left Support 0.00 k-ft Camber: @Left
Max @ Right Support 0.00 k-ft Q Center
Max. M allow 5.37
fb 787.55 psi fv 36.75 psi Left DL 0.38 k Max
Fb 1,250.00 psi Fv 118.75psi Right DL 0.38 k Max
Q Right Reactions ...
Beam Design OK
1.5 k
4.9 k
1.13k 1.13k
0.000in
0.134 in 0.000 in
1.13k
1.13 k
Deflection -0.089 in -0.267 in Deflection 0.000 in 0.000 in ... Location 6.000 ft 6.000 ft . . . LengthIDefl 0.0 0.0
Q Center 0.134 in . ..LengthlDefl 0.0 0.0
. . . LengthlDefl 1,610.4 539.66 Right Cantilever ...
Camber ( using 1.5 D.L. Defl ) ... Deflection 0.000 in 0.000 in
@ Left 0.000 in
Bending Analysis Ck 29.908 Le 0.000 ft SXX 51.563 in3 Area 41.250 in2 Cf 1.000 Rb 0.000 CI 0.000
@ Center 3.38 k-ff 32.49 in3 1,250.00 psi
@ Left Support 0.00 k-ft 0.00 in3 1,250.00 psi Q Right Support 0.00 k-ft 0.00 in3 1,250.00 psi
Shear Analysis @ Left Support Q Right Support Design Shear 1.52 k 1.52 k
Area Required 12.767 in2 12.767 in2
Fv: Allowable 118.75 psi 11 8.75 psi
Max. Left Reaction 1.13 k Bearing Length Req'd 0.328 in
Max. Right Reaction 1.13 k Bearing Length Req'd 0.328 in
Max Moment Sxx Rea'd Allowable fb
Bearing @ Supports
I
c
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: (760) 966-6355
Job # yo@
Date: 10:13AM, 27 JAN 05 Title : -w Dsgnr:
Description :
Scope :
Description BM12
I General Information Calculations are designed to 1997 NDS and 1997 UBC Requirements b
Section Name 6x6 Center Span 11.00ft . . . . .Lu 0.00 ft Beam Width 5.500 in Left Cantilever ft ..... Lu 0.00 ft Beam Depth 5.500 in Right Cantilever 1.50ft . . . . .Lu 0.00 ft Member Type Sawn Douglas Fir-Larch, No. 1 Fb Base Allow 1,000.0 psi Load Dur. Factor 1.250 Fv Allow 95.0 psi Beam End Fixity Pin - P i n Fc Allow 625.0 psi E 1,700.0 ksi
1 Full Lenath Uniform Loads h
Center DL 27.00 #Ift LL 54.00 #/ft Left Cantilever DL #Ift LL #/ft Right Cantilever DL 27.00 #/ft LL 54.00 #/ft
Cant= 1.50ft, Beam Width = 5.500in x Depth = 5.5in, Ends are Pin-Pin
Max Stress Ratio 0.419 : 1
1.2 k-ft Maximum Shear * 1.5 0.6 k
Allowable 2.9 k-ft AI Iowa ble 3.6 k Maximum Moment
Max. Positive Moment 1.21 k-ft at 5.450 ft Shear: @ Left 0.44 k Max. Negative Moment -0.03 k-ft at 11 .OOO ft @ Right 0.45 k
Max Q Left Support 0.00 k-ft Camber: Q Left 0.000 in
0.098 in Max Q Right Support -0.09 k-ft Q Center
@ Right 0.040in Max. M allow 2.89 Reactions ...
Fv 118.75 psi Right DL 0.19 k Max 0.58 k
Deflection -0.066 in -0.203 in Deflection 0.000 in 0.000 in ... Location 5.450 ft 5.500 ft . . . LengthlDefI 0.0 0.0 . . . LengthlDefl 2,013.7 651.00 Right Cantilever ...
Camber ( using 1.5 * D.L. Defl ) ... Deflection 0.027 in 0.084 in @ Center 0.098 in ... Length/Defl 1,349.1 427.6 Q Left 0.000 in
Bending Analysis
Ck 29.908 Le 0.000 ff SXX 27.729 in3 Area 30.250 in2 Cf 1.000 Rb 0.000 CI 0.000
Q Center 1.21 k-ft 11.62 in3 1,250.00 psi
Q Left Support 0.00 k-ft 0.00 in3 1,250.00 psi
@ Right Support 0.09 k-ft 0.87 in3 1,250.00 psi
Shear Analysis Q Left Support Q Right Support Design Shear 0.61 k 0.63 k
Area Required 5.132 in2 5.272 in2 Fv: Allowable 118.75 psi 1 18.75 psi
Max. Left Reaction 0.44 k Bearing Length Req'd 0.129 in
Max. Right Reaction 0.58 k Bearing Length Req'd 0.167 in
Max Moment Sxx Rea'd Allowable fb
Bearing @ Supports
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: (760) 966-6355
Title : Job #YO@
Date: 12:02PM. 31 JAN 05 Dsgnr: Description :
-.rs
Scope :
Rev: 560100 User. KW-0602938 Ver 5.6.1 25-Od-2002
Description BM13
General Information Calculations are designed to 1997 NDS and 1997 UBC Requirements b
Section Name 5.125x13.5 Center Span 22.00ft . . . . .Lu 22.00 ft Beam Width 5.125in Left Cantilever ft . . . . .Lu 0.00 ft
Beam Depth 13.500 in Right Cantilever ft . . . . .Lu 0.00 ft Member Type GluLam Douglas Fir GLB, 24F V8
Fb Base Allow 2,400.0 psi Load Dur. Factor 1.250 .Fv Allow 190.0 psi Beam End Fixity Pin-Pin Fc Allow 560.0 psi E 1,800.0 ksi
Center DL 26.00 #lft LL 53.00 #lft Left Cantilever DL #If3 LL #Ift
Right Cantilever DL #Ift LL #lft
Live Load 2,849.0 Ibs Ibs Ibs Ibs Ibs Ibs Ibs ... distance 11.000 ft 0.000 ft 0.000 ft 0.000 ft 0.000 R 0.000 ft 0.000ft
Width = 5.125in x Depth = 13.5in, Ends are Pin-Pin
Max Stress Ratio
Maximum Moment Allowable
Max. Positive Moment Max. Negative Moment
Max Q Left Support
Max Q Right Support
Max. M allow
0.798 : 1
28.2 k-ft Maximum Shear * 1.5 4.4 k
35.4 k-ft Allowable 16.4 k
28.24 k-ft at 11 .OOO ft Shear: @ Left 3.00 k 0.00 k-ft at 22.000 ft @ Right 3.00 k
0.00 k-ft Camber: @Left 0.000 in
0.00 k-ft @ Center 0.539in Q Right 0.000 in Reactions ... 35.38
fb 2.177.08 psi fv 63.28 psi Left DL 0.99 k Max 3.00 k Fb 2,727.46 psi Fv 237.50psi Right DL 0.99 k Max 3.00 k I Deflections
Center Span ... Dead Load Total Load Left Cantilever ... Dead Load Total Load
Deflection -0.360 in -1.085 in Deflection 0.000 in 0.000 in ... Location 11 .ooo ft 11.000 ft ... LengthlDefl 0.0 0.0
@ Center 0.539 in . . . LengthlDefl 0.0 0.0
... LengthlDefl 734.1 243.38 Right Cantilever ...
Camber ( using 1.5 * D.L. Defl ) ... Deflection 0.000 in 0.000 in
@ Left 0.000 in
@ Right 0.000 in
Dunn Savoie Inc.
Structural Engineers 908 S. Cleveland St. Oceanside, CA 92054
Tel: (760) 966-6355 Fax: (760) 966-6360
SHEET NO.
CALCULATED BY
BM @
36 OF
Y.S. DATE 1 /05
c
c
L1 12' L1
W
c
JOB I Legoland-Knights Quest I 1 04320.00 I
CHECKED BY DATE I I I
BM 8
W= +I
USE 6X $'
W= 'i
USE 6x4
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: 1760) 966-6355
Title : Job # YDQ
Dsgnr: 37 Date: 10:13AM, 27 JAN 05
Description :
Scope :
Description BM14
Section Name 6x8 Center Span 12.00ft . . . . .Lu 0.00 ft Beam Width 5.500 in Left Cantilever ft ..... Lu 0.00 ft Beam Depth 7.500 in Right Cantilever 2.50ft . . . . .Lu 0.00 ft Member Type Sawn Douglas Fir-Larch, No. 1
Fb Base Allow 1,000.0 psi Load Dur. Factor 1.250 Fv Allow 95.0 psi Beam End Fixity Pin-Pin Fc Allow 625.0 psi E. 1,700.0 ksi
Center DL 96.00 #/ft LL 193.00 #M
Left Cantilever DL #/ft LL #lft
Right Cantilever DL 96.00 #/ft LL 193.00 #Ift
Span= 12.OOft, Right Cant= 2.5Oft, Beam Width = 5.500in x Depth = 7.5in, Ends are Pin-Pin Max Stress Ratio 0.941 : 1
Maximum Moment 5.1 k-ft Maximum Shear * 1.5
Allowable 5.4 k-R Allowable
Max. Positive Moment 5.05 k-ft at 5.913 ft Shear: Q Left Max. Negative Moment -0.30 k-ft at 12.000 ft Q Right
Max Q Left Support 0.00 k-ft Camber: Q Left Max Q Right Support -0.90 k-ft
Max. M allow 5.37
fb 1,175.99 psi fv 59.70 psi Left DL 0.55 k Max
Fb 1,250.00 psi Fv 118.75 psi Right DL 0.84 k Max
Q Center Q Right Reactions. ..
Beam Design OK
2.5 k
4.9 k
1.71 k 1.81 k
0.000 in
0.183in 0.106in
1.71 k
2.53 k
1 Deflections b
Center Span ... Dead Load Total Load Left Cantilever ... Dead Load Total Load
Deflection -0.122 in -0.396 in Deflection 0.000 in 0.000 in .,.Location 5.913ft 5.971 ft . . . Lengt h/Defl 0.0 0.0 . . . Lengt h/Defl 1,179.4 363.64 Right Cantilever ...
Camber ( using 1.5 D.L. Deft ) ... Deflection 0.071 in 0.249 in Q Center 0.183 in .. .Length/Defl 847.7 240.7 Q Left 0.000 in
Q Right 0.106 in I Stress Calcs c
Bending Analysis
Ck 29.908 Le 0.000 ft SXX 51 363 in3 Area 41.250 in2 Cf 1.000 Rb 0.000 GI 0.000
Q Center
Q Left Support
Q Right Support
Shear Analysis Design Shear
Area Required
Fv: Allowable
Bearing @ Supports
Max. Left Reaction
Max. Right Reaction
Max Moment
5.05 k-ft
0.00 k-ft
0.90 k-ft
Q Left Support 2.31 k
19.471 in2 118.75 psi
1.71 k
2.53 k
Sxx Rea'd Allowable fb
48.51 in3 1,250.00 psi
0.00 in3 1,250.00 psi
8.67 in3 1,250.00 psi
Q Right Support
2.46 k 20.738 in2
11 8.75 psi
Bearing length Req'd 0.497 in
Bearing Length Req'd 0.737 in
Dunn Savoie Inc. Structural Engineers
908 S. Cleveland St. Oceanside, CA 92054
Tel: (760) 966-6355 Fax: (760) 966-6360
JOB
SHEET NO.
CALCULATED BY
CHECKED BY
c W
Legoland-Knights Quest JOB # 04320.00
OF Y.S. DATE 1/05
DATE
W I W=
BM @ c
PLF (DL)
16~ (x-kLJ') X \b3 PLF (LL) 11' w=
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job # YUQ
Dsgnr: 3q Date: 10:13AM, 27 JAN 05
Description :
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Description BM16
[General Information Calculations are designed to 1997 NDS and 1997 UBC Requirements k
Section Name 6x8 Center Span 12.00ft . . . , .Lu 0.00 ft Beam Width 5.500 in Left Cantilever ft ..... Lu 0.00 ft Beam Depth 7.500 in Right Cantilever 4.25ft . . . , .Lu 0.00 ft Member Type Sawn Douglas Fir-Larch, No. 1 Fb Base Allow 1,000.0 psi Load Dur. Factor 1.250 Fv Allow 95.0 psi Beam End Fixity Pin-Pin Fc Allow 625.0 psi E 1,700.0 ksi
Center DL 72.00 #/ft LL 143.00 #lft Left Cantilever DL #lft LL #lft
Right Cantilever DL 72.00 #lft LL 143.00 #lft
Beam Design OK
Span= 12.OOft, Right Cant= 4.25ft, Beam Width = 5.500in x Depth = 7.5i1-1, Ends are Pin-Pin
Max Stress Ratio 0.661 : 1
Maximum Moment 3.6 k-ft Maximum Shear * 1.5
Allowable 5.4 k-ft AI Iowa ble
Max. Positive Moment 3.55 k-ft at 5.773 ft Shear: @ Left Max. Negative Moment -0.65 k-ft at 12.000 ft @ Right
Max @ Left Support 0.00 k-ft Camber: @Left
Max @ Right Support -1.94 k-ft @ Center 1 Max. M allow 5.37 Reactions.. . Q Right
826.56 psi fv 48.23 psi Left DL 0.38 k Max I Fb 1,250.00 psi Fv 118.75 psi Right DL 0.79 k Max
2.0 k
4.9 k
1.24 k 1.45k
0.000in
0.108in
0.063in
1.24 k
2.37 k
1 Deflections
Center Span ... Dead Load Total Load Left Cantilever ... Dead Load Total Load
Deflection -0.072 in -0.274 in Deflection 0.000 in 0.000 in ... Location 5.643 ft 5.903 ft ... LengthlDefl 0.0 0.0
Right Cantilever ...
Q Center 0.1 08 in , . . LengthlDefl Q Left 0.000 in
Q Right 0.063 in
. . . LengthlDefl 2,008.2 524.66
Camber ( using 1.5 * D.L. Defl ) ... Deflection 0.042 in 0.269 in
379.6 2,412.8
1 Stress Calcs
Bending Analysis - Ck 29.908 Le 0.000 ft SXX 51 363 in3 Area 41.250 in2 Cf 1.000 Rb 0.000 CI 0.000 Max Moment
Q Center 3.55 k-ft
@ Left Support 0.00 k-ft
@ Right Support 1.94 k-ft
Shear Analysis Q Left Support
Design Shear 1.67 k
Area Required 14.025 in2
Fv: Allowable 118.75 psi
Max. Left Reaction 1.24 k
Max. Right Reaction 2.37 k
Bearing @ Supports
Sxx Rea'd Allowable fb
34.10 in3 1,250.00 psi 0.00 in3 1,250.00 psi
18.64 in3 1,250.00 psi
@ Right Support
1.99 k
16.753 in2
11 8.75 psi
Bearing Length Req'd 0.360 in
Bearing Length Req'd 0.688 in
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job # 90Q
Dsgnr: Date: 9:23AM, 31 JAN 05
Description :
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Description BM17
I General Information Calculations are designed to 1997 NDS and 1997 UBC Requirements
Section Name 6x8 Center Span 12.00ft . . . . .Lu 0.00 ft Beam Width 5.500 in Left Cantilever 2 ft . . . . .Lu 0.00 ft
Beam Depth 7.500 in Right Cantilever ft ..... Lu 0.00 ft Member Type Sawn Douglas Fir-Larch, No. 1
Fb Base Allow 1,000.0 psi
Load Dur. Factor 1.250 Fv Allow 95.0 psi
Beam End Fixity Pin-Pin Fc Allow 625.0 psi
E 1,700.0 ksi
Center DL 96.00 #/ft LL 193.00 #/ft Left Cantilever DL Right Cantilever DL #/ft LL #/ft #Ift LL #/R
Beam Design OK
Span= 12.00ft, Beam Width = 5.500in x Depth = 7.5in, Ends are Pin-Pin
Max Stress Ratio 0.969 : 1
Maximum Moment 5.2 k-R Maximum Shear * 1.5
Allowable 5.4 k-ft Allowable
Max. Positiie Moment 5.20 k-ft at 6.000 ft Shear: Q Left Max. Negative Moment 0.00 k-ft at 12.000 ft Q Right
Max Q Left Support 0.00 k-ft Camber: @Left
Max Q Right Support 0.00 k-ft Q Center
Max. M allow 5.37
fb 1,210.65 psi fv 56.50 psi Left DL 0.58 k Max
Fb 1,250.00 psi Fv 118.75 psi Right DL 0.58 k Max
Q Right Reactions ...
I Deflections
2.3 k
4.9 k
1.73 k 1.73k
0.000 in
0.204in 0.000 in
1.73 k
1.73k
Center Span ... Dead Load Total Load Left Cantilever ... Dead Load Total Load
Deflection -0.136 in -0.410 in Deflection 0.000 in 0.000 in ... Location 6.000 ft 6.000 ft . . . LengthlDefl 0.0 0.0
Q Center 0.204 in . . . Lengt h/Defl 0.0 0.0
. . .Length/Defl 1,056.8 351.06 Right Canti lever.. .
Camber ( using 1.5 * D.L. Defl ) ... Deflection 0.000 in 0.000 in
Q Left 0.000 in
Q Right 0.000 in
Bending Analysis Ck 29.908 Le 0.000 ft SXX 51.563 in3 Area 41.250 in2 Cf 1.000 Rb 0.000 CI 0.000
, Q Center
Q Left Support Q Right Support
Shear Analysis
Design Shear
Area Required Fv: Allowable
Bearing @ Supports
Max. Left Reaction Max. Right Reaction
Max Moment
5.20 k-ft
0.00 k-ft
0.00 k-ft
Q Left Support
2.33 k
19.625 in2
118.75 psi
1.73 k
1.73 k
SXx ReQ’d Allowable fb
49.94 in3 1,250.00 psi
0.00 in3 1,250.00 psi
0.00 in3 1,250.00 psi
Q Right Support
2.33 k 19.625 in2
11 8.75 psi
Bearing Length Req‘d 0.504 in
Bearing Length Req‘d 0.504 in
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: (760) 966-6355
Title : Job # yo@
Dsgnr: @I Date: 10:13AM. 27 JAN 05
Description :
Scope :
Rev: 560100 User: KW-0602938 Ver 5.6.1 25-Oc1-2002
Description BM18
I General Information Calculations are designed to 1997 NDS and 1997 UBC Requirements b
Section Name 6x8 Center Span 12.00ft . . . . .Lu 0.00 ft Beam Width 5.500 in Left Cantilever 6.50ft . . . . .Lu 0.00 ft
Beam Depth 7.500 in Right Cantilever ft . . . . .Lu 0.00 ft Member Type Sawn Douglas Fir-Larch, No. 1 Fb Base Allow 1,000.0 psi Load Dur. Factor 1.250 Fv Allow 95.0 psi Beam End Fixity Pin - P i n Fc Allow 625.0 psi E 1,700.0 ksi
~~~~
IKll Lenath Uniform Loads
Center DL 72.00 #Ift LL 143.00 #/ft Left Cantilever DL 72.00 #/ft LL 143.00 #/ft Right Cantilever DL #Ift LL #lft
Span= 12.00ft, Left Cant= 6.50R, Beam Width = 5.500in x Depth = 7.5in, Ends are Pin-Pin
Max Stress Ratio 0.846 : 1
Maximum Moment -4.5 k-ft Maximum Shear * 1.5
Allowable 5.4 k-ft Allowable
Max. Positive Moment 3.15k-ft at 6.626 ft Shear: Q Left Max. Negative Moment -1.52 k-ft at 0.000 ft @ Right
Max @ Left Support -4.54 k-ft Camber: @Left
Max Q Right Support 0.00 k-ft Q Center
Max. M allow 5.37
ft, 1,057.02 psi fv 56.07 psi Left DL 1.03 k Max
Fb 1,250.00 psi Fv 118.75psi Right DL 0.31 k Max
@ Right Reactions.. .
2.3 k
4.9 k
1.67 k 1.16 k
0.172in
0.049in 0.000 in
3.07 k
1.16k
(Deflections
Center Span ... Dead Load Total Load Left Cantilever ... Dead Load Total Load
Deflection -0.033 in -0.234 in Deflection -0.114 in -0.689 in ... Location 7.288 ft 6.258 ft . .. Lengt h/Defl 1,362.8 226.3 .. .LengthlDefl 4,384.0 616.26 Right Cantilever ...
Camber ( using 1.5 * D.L. Defl ) ... Deflection 0.000 in 0.000 in @ Center 0.049 in .. . LengthlDefl 0.0 0.0 Q Left 0.172 in
Q Right 0.000 in
Bending Analysis Ck 29.908 Le 0.000 ft SXX 51.563 in3 Area 41.250 in2 Cf 1.000 Rb 0.000 CI 0.000
Q Center 3.15 k-ft 30.21 in3 1,250.00 psi
Q Left Support 4.54 k-ft 43.60 in3 1,250.00 psi
Q Right Support 0.00 k-ft 0.00 in3 1,250.00 psi
Shear Analysis @ Left Support @ Right Support
Design Shear 2.31 k 1.55 k Area Required 19.476 in2 13.094 in2
Fv: Allowable 118.75 psi 11 8.75 psi
Max. Left Reaction 3.07 k Bearing Length Req'd 0.892 in
Max. Right Reaction 1.16 k Bearing Length Req'd 0.338 in
Max Moment Sxx Rea'd Allowable fb
Bearing @ Supports
I Dunn Savoie Inc.
1 Structural Engineers
908 S. Cleveland St. Oceanslde, CA 92054
Tal: (760) 966-6355 Fax: (760) 966-6360
SHEET NO.
CALCULATED BY
~ ~p
JOB 1 Legoland-Knights Quest 1 JOB# 1 0432O.0Op 1
OF
Y.S. DATE 1 /05
CHECKEDBY I I DATE
BM @
W
BM 63
W
22’ $x 7 x I*\($ r= qs PLF (DL) I
W= +I
ATL
w=
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job # yo@
Dsgnr: v3 Date: 10:13AM. 27 JAN 05 Description :
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Description BM19
I General Information Calculations are designed to 1997 NDS and 1997 UBC Requirements
Section Name 6x8 Center Span 12.00ft . . . . .Lu 0.00 ft' Beam Width 5.500 in Left Cantilever 4.50ft . . . . .Lu 0.00 ft
Beam Depth 7.500 in Right Cantilever . ft . . . . .Lu 0.00 ft Member Type Sawn Douglas Fir-Larch, No. 1 Fb Base Allow 1,000.0 psi Load Dur. Factor 1.250 Fv Allow 95.0 psi Beam End Fixity Pin-Pin Cc Allow 625.0 psi E 1,700.0 ksi
Center DL 98.00 #/ft LL 197.00 #/ft Left Cantilever DL 98.00 #/ft LL 197.00 #/ft Right Cantilever DL #Iff LL #/ft
Beam Design OK
Span= IZ.OOft, Left Cant= 4.50ft, Beam Width = 5.500in x Depth = 7.517, Ends are Pin-Pin
Max Stress Ratio 0.898 : 1
Maximum Moment 4.8 k-A Maximum Shear * 1.5
Allowable 5.4 k-A Allowable
Max. Positive Moment 4.83 k-R at 6.264 ft Shear: Q Left Max. Negative Moment -0.99 k-ft at 0.000 ft Q Right
Max Q Left Support -2.99 k-ft Camber: @Left
Max Q Right Support 0.00 k-ft. Q Center
Max. M allow 5.37
tb 1,123.01 psi fv 67.05 psi Left DL 1.11 k Max
Q Right Reactions ...
Fb 1,250.00 psi Fv 118.75 psi Right DL 0.51 k Max I Deflections
2.8 k
4.9 k
2.02 k 1.69 k
0.069 in 0.1 39in 0.000 in
3.35k
1.69k
Deflection -0.093 in -0.372 in Deflection 0.046 in 0.379 in ... Location 6.396 ft 6.132 ft . . . Lengt h/Defl 2,358.0 284.7 . . . LengthlDefl 1,554.2 387.23 Right Cantilever. ..
Camber ( using 1.5 * D.L. Deft ) ... Deflection 0.000 in 0.000 in Q Center 0.139 in . . . LengthlDefl 0.0 0.0
I Stress Calcs t
Q Left 0.069 in
Q Right 0.000 in
Bending Analysis Ck 29.908 Le Cf 1.000 Rb
Q Center
Q Left Support
Q Right Support
Shear Analysis
Design Shear
Area Required
Fv: Allowable
Bearing Q Supports
Max. Left Reaction Max. Right Reaction
0.000 ft 0.000
Max Moment
4.83 k-ft
2.99 k-ft
0.00 k-ft
Q Left Support
2.77 k
23.291 in2
118.75 psi
3.35 k
1.69 k
SXX 51.563 in3 Area 41.250 in2 CI 0.000
SXX Rea'd Allowable fb
46.32 in3 1,250.00 psi
28.67 in3 1,250.00 psi 0.00 in3 1,250.00 psi
Q Right Support 2.27 k
19.102 in2. 118.75 psi
Bearing Length Req'd 0.973 in
Bearing Length Req'd 0.491 in
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job # yo@
Dsgnr: '+ Date: 10:13AM, 27 JAN 05 Description :
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Description BM20
FY 36.00 ksi
Load Duration Factor 1 .oo Steel Section : W6X9
Center Span 8.00 ft Bm Wt. Added to Loads Elastic Modulus 29,000.0 ksi
Left Cant. 0.00 ft LL & ST Act Together
Pinned-Pinned
Right Cant 0.00 ft Lu : Unbraced Length 0.00 ft
#1 #2 #3 #4 #5 #6 #7 DL 0.273 Idft LL 0.650 Idft ST wft Start Location ft End Location 8.000 ft
= 8.00ft. Fy = 36.0ksi . Lu = 0.OOft. LDF = 1.000 Actual Allowable
Moment 7.457 k-ft 11.007 k-ft Max. Deflection -0.181 in
LengthlDL Defl 1,756.2 : 1
Length/(DL+LL Defl) 531.5 : 1
tb : Bending Stress 16.096 ksi 23.760 ksi
fbIFb 0.677 : 1
Shear 3.728 k 14.443 k fv : Shear Stres: 3.717 ksi 14.400 ksi
fvIFv 0.258 : 1
DL LL LL+ST LL LL+ST Maximum Onlv @ Center d Center @ Cants _b Cants
Max. M + 7.46 k-ft 2.26 7.46 k-ft Ma. M - k-ft Max. M Q Left k-ft Max. M Q Right k-ft
Shear Q Left 3.73 k 1.13 3.73 k Shear Q Right 3.73 k 1.13 3.73 k
Center Defl. -0.181 in -0.055 -0.181 -0.181 0.000 0.000 in Left Cant Defl 0.000 in 0.000 0.000 0.000 0.000 0.000 in Right Cant Defl 0.000 in 0.000 0.000 0.000 0.000 0.000 in
... Query Defl @ 0.000 ft 0.000 0.000 0.000 0.000 0.000 in
Reaction Q Left 3.73 1.13 3.73 3.73 ' k
Reaction Q Rt 3.73 1.13 3.73 3.73 k
Fa calc'd per Eq. E2-1, K*Ur < Cc
Width 3.940in I -XX 16.40 in4 r-YY 0.904 in Web Thick 0.170 in I-YY 2.19 in4 Rt 1.030 in Flange Thickness 0.21 5 in S-XX 5.559 in3 Area 2.68 in2 s-YY 1.112 in3
Dunn Savoie Inc. Structural Engineers
908 S. Cleveland St. Oceanslde, CA 92054 Tel: (760) 966-6355 Fax: (760) 966-6360
CALCULATED BY
BM @a
Y.S. DATE 1/05
JOB 1 Legoland-Knights Quest 1 JOB # I 04320.00 I i ./ I I
CHECKEDBY I 1 DATE
SCALE 1
3 - - 63 PLF (DL) 42x 5
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Title : Job # PO@
Dsgnr: 'p6 Date: 12:02PM, 31 JAN05 Description :
Scooe : Tel: (760) 966-6355
Description BM 21a Channel
I General Information Calculations are designed to AlSC 9th Edition ASD and 1997 UBC Requirements
Steel Section : C6X8.2 FY 36.00 ksi
Center Span 8.00 ft Bm Wt. Added to Loads Elastic Modulus 29.000.0 ksi
Left Cant. 0.00 ft LL & ST Act Together
Pinned-Pinned Load Duration Factor 1 .oo
Right Cant 0.00 ft Lu : Unbraced Length 0.00 ft
DL @ Righi 0.063 LL Q Righl 0.1 50 ST @ Righi k/R End 4.500ft
#2 DL@ Left 0.231 LL Q Left 0.550 STQLeft Wft Start 4.500 ft
DL Q Righl 0.231 LL Q Right 0.550 ST Q Righi Wft End 8.000ft
Static Load Case Governs Stress Span = 8.00ft, Fy = 36.0ksi End Fixity = Pinned-Pinned, Lu = O.OOft, LDF = 1.000
Actual Allowable
3.765 k-ft 7.800 k-ft Max. Deflection -0.110 in
LengthlDL Defl 2,828.8 : I
Length/(DL+LL Defl) 872.5 : 1
fb : Bending Stress 10.425 ksi 21.600 ksi fbIFb 0.483 : I
2.438 k 17.280 k fv : Shear Stress 2.031 ksi 14.400 ksi fvIFv 0.141 : 1 I
I Force & Stress Summary
Max. M + Max. M -
Max. M Q Left Max. M Q Right
Shear Q Left
Shear Q Right
e<-- These columns are Dead + Live Load placed as noted ->> DL LL LL+ST LL LL+ST @ Center d Center j3 Cants @ Cants Maximum Onlv
3.76 k-ft 1.16 3.76 k-ft
-0.00 -0.00 k-ft k-fI k-ft
1.32 k 0.41 1.32 k
2.44 k 0.74 2.44 k
' Center Defl. -0.1 1 o in -0.034 -0.110 -0.110 0.000 0.000 in Left Cant Defl 0.000in 0.000 0.000 0.000 0.000 0.000 in Right Cant Defl 0.000 in 0.000 0.000 ' 0.000 0.000 0.000 in ... Query Defl Q 0.000 ft 0.000 0.000 0.000 0.000 0.000 in
Reaction Q Left 1.32 0.41 1.32 1.32 Reaction Q Rt 2.44 0.74 2.44 2.44
Fa calc'd Der Ea. E2-1, K'Ur < Cc
k k
I Beam Passes Table B5.1, Fb per Eq. Fl-1, Fb = 0.66 Fy 1 Section Properties C6X8.2 c
Width 1.920in I-XX
Web Thick 0.200 in 1 -YY
Flange Thickness 0.343 in S-XX Area 2.39 in2 s-YY
13.00 in4 r-YY 0.70 in4
4.333 in3
0.500 in3
0.541 in
BM 63
JOE
SHEET NO.
CALCULATED BY
W
Legoland-Knights Quest JOB # 04320.00
Cr-7 OF
Y.S. DATE 1 /05
3
BM 0
CHECKEDBY 1 1 DATE
SCALE
6'
PLF (DL) 1 I 4rx - = '.L6
ATL
y=
< L/wo OK!
2.t' 4.2 (5 t 7)= m PLF (DL)
-I SHEET NO. Ip4 OF DUNN SAVOIE INC.
STRUCTURAL ENGINEERS 908 S. Cleveland Street CALCULATED BY DATE
PH. (760) 966-6355 FAX (760) 966-6360 CHECKED BY DATE
OCEANSIDE, CA 92054
Email: dsi@surfdsi.com
SCALE
;). \I-’ L 1
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job # YO@
Dsgnr: Description : Date: 10:08AM, 27 JAN 05 '
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Description BM TS Tube.
BMa
I General Information Calculations are designed to AlSC 9th Edition ASD and 1997 UBC Requirements
FY 46.00 ksi Steel Section : TS2X12X114
Center Span 8.00 ft Bm Wt. Added to Loads Elastic Modulus 29,000.0 ksi
Left Cant. 0.00 ft LL & ST Act Together
Right Cant 0.00 ft Lu : Unbraced Length
Pinned-Pinned Load Duration Factor I .oo
0.00 ft
#1 #2 #3 #4 #5 #6 #7 DL 0.126 0.315 LL 0.300 0.750 ST
Start Location 4.500
End Location 4.500 8.000
Wft Wft Wft
ft ft
Static Load Case Governs Stress Using: TS2X12X114 section, Span = 8.00ft, Fy = 46.0ksi End Fixity = Pinned-Pinned, Lu = O.OOft, LDF = 1.000 Actual Allowable
Moment 5.765 k-ft 32.200 k-fl Max. Deflection -0.160 in
LengthlDL Defl 1,884.5 : 1 tb : Bending Stress 4.941 ksi 27.600 ksi
Lengthl(DL+LL Defl) 599.4 : 1 fb/Fb 0.179 : 1
Shear 3.541 k 9.200 k fv : Shear Stress 0.590 ksi 18.400 ksi fvIFv 0.032 : 1
<e-- These columns are Dead + Live Load placed as noted ->>
DL LL LL+ST LL LL+ST Maximum Onlv _cia Center ti? Center JB Cants @ Cants
Max. M + 5.76 k-ft 1.83 5.76 k-ft
Max. M - -0.00 -0.00 k-ft Max. M Q Left k-ft Max. M Q Right k-ft
Shear Q Left 2.28 k 0.74 2.28 k Shear Q Right 3.54 k 1.11 3.54 k
Center Defl. -0.160 in -0.051 -0.160 -0.160 0.000 0.000 in Left Cant Defl 0.000in 0.000 0.000 0.000 0.000 0.000 in Right Cant Defl 0.000 in 0.000 0.000 0.000 0.000 0.000 in ... Query Defl Q 0.000 ft 0.000 0.000 0.000 0.000 0.000 in
Reaction Q Left 2.28 0.74 2.28 2.28 k Reaction Q Rt 3.54 1.11 3.54 3.54 k
Fa calc'd per Eq. E2-1, K'Ur < Cc
Depth 2.000 in Weight 22.38 #/ft r-xx 1.458 in
Width 12.000in I -xx 14.00 in4 r-YY 3.740 in Thickness 0.250 in I-YY 92.20 in4
S-XX 14.000 in3
Area 6.59 in2 s-YY 15.367 in3
Dunn Savoie Inc.
Structural Engineers - 908 S. Cleveland Street
Title : Job # yo@
Dsgnr: fi Date: 10:13AM, 27 JAN 05 Description :
-
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
-
Description BM23
FY 36.00 ksi
Pinned-Pinned Load Duration Factor 1 .oo Steel Section : W6X9
Center Span 8.50 ft Bm Wt. Added to Loads Elastic Modulus 29,000.0 ksi
Left Cant. 0.00 ft LL & ST Act Together
Right Cant 0.00 ft
Lu : Unbraced Length 0.00 ft
I TraDezoidal Loads C -
#1 DL@Left 0.179 LL@Left 0.425 ST@Left klft Start ft
DL Q Righl 0.252 LL @ Right 0.600 ST @ Righl klft End 8.500ft
Static Load Case Go pan = 8.50ft, Fy = 36.0ksi
Actual Allowable
6.662 k-ft 11.007 k-ft Max. Deflection
LengthlDL Defl
Length/(DL+LL Defl)
tb : Bending Stress 14.380 ksi 23.760 ksi
3.308 k 14.443 k fv : Shear Stres: 3.298 ksi 14.400 ksi
DL LL LL+ST LL LL+ST Maximum Onlv Ca! Center -@ Center Ca! Cants JZB Cants
Max. M + 6.66 k-ft 2.03 6.66 k-ft Max. M - -0.00 -0.00 k-ft Max. M @ Left k-ft Max. M @ Right k-ft
Shear @ Left 2.96 k 0.90 2.96 k
Shear @ Right 3.31 k 1.01 3.31 k
Center Defl. -0. I 82 in -0.055 -0.182 -0.182 0.000 0.000 in Left Cant Defl 0.000 in 0.000 0.000 0.000 0.000 0.000 in Right Cant Defl 0.000 in 0.000 0.000 0.000 0.000 0.000 in
... Query Defl@ 0.000 ft 0.000 0.000 0.000 0.000 0.000 in
Reaction @ Left 2.96 0.90 2.96 2.96 k Reaction @ Rt 3.31 1.01 3.31 3.31 k
Fa calc'd per Eq. E2-1, K'Ur c Cc
Width 3.940in I-XX 16.40 in4 r-YY 0.904 in Web Thick 0.170 in I-YY 2.19 in4 Rt 1.030 in Flange Thickness 0.215 in S-XX 5.559 in3 Area 2.68 in2 s-YY 1.112 in3
BM @
JOB
CALCULATED BY
SHEET NO.
CHECKED BY
c
Legoland-Knights Quest JOB # 04320.00
r! OF Y.S. DATE 1/05
DATE
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland St. Oceanside, CA 92054
Tel: (760) 966-6355
Fax: (760) 966-6360
e
c
c
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job # PO@
Dsgnr: Date: 10:13AM, 27 JAN 05
Description :
Oceanside, CA 92054 Scope :
Tel: (760) 966-6355
Description EM24
I General Information Calculations are designed to 1997 NDS and 1997 UBC Requirements
Section Name 6x12 Center Span 12.50ft . , . . .Lu 0.00 ft
Beam Width 5.500 in Left Cantilever ft ..... Lu 0.00 ft
Beam Depth 11.500 in Right Cantilever R ..... Lu 0.00 ft Member Type Sawn Douglas Fir-Larch, No. 1 Fb Base Allow 1,000.0 psi Load Dur. Factor 1 .ooo Fv Allow 95.0 psi Beam End Fixity Pjn-Pin Fc Allow 625.0 psi E 1.700.0 ksi
Center DL 47.00 #/ft LL 225.00 #/ft Left Cantilever DL #/ft LL #/ft Right Cantilever DL #/ft LL #/ft
Span= 12.50ft, Beam Width = 5.500in x Depth = 11.5in, Ends are Pin-Pin Max Stress Ratio 0.526 : 1
Maximum Moment 5.3 k-ft Maximum Shear * 1.5
Allowable 10.1 k-ft Allowable
Max. Positive Moment 5.31 k-ft at 6.250ft Shear: Q Left Max. Negative Moment 0.00 k-ft at 12.500 ft Q Right
Max Q Left Support 0.00 k-ft Camber: @Left
Max Q Right Support 0.00 k-ft Q Center
Max. M allow 10.10
fb 525.86 psi fv 34.19psi Left DL 0.29 k Max
Fb 1,000.00 psi Fv 95.00 psi Right DL 0.29 k Max
@ Right Reactions ...
Beam Design OK
2.2 k
6.0 k
1.70k 1.70k
0.000in
0.033in 0.000 in
1.70 k
1.70 k
1 Deflections
Center Span ... Dead Load Total Load Left Cantilever ... Dead Load Total Load
Deflection -0.022 in -0.126 in Deflection 0.000 in 0.000 in ... Location 6.250 ft 6.250 ft ... LengthlDefl 0.0 0.0
Q Center 0.033 in . . . Length/Defl 0.0 0.0
I Stress Calcs k!
... LengthlDefl 6,885.0 1,189.69 Right Cantilever ...
Camber ( using 1.5 * D.L. Defl ) ... Deflection 0.000 in 0.000 in
@ Left 0.000 in
Q Right 0.000 in
Bending Analysis Ck 33.438 Le 0.000 ft Cf 1.000 Rb 0.000
@ Center
Q Left Support Q Right Support
Shear Analysis Design Shear
Area Required Fv: Allowable
Bearing @ Supports
Max. Left Reaction
Max. Right Reaction
Max Moment
5.31 k-ft
0.00 k-ft
0.00 k-ft
Q Left Support
2.16 k
22.762 in2
95.00 psi
1.70 k
1.70 k
SXX 121.229 in3 Area 63.250 in2 CI 0.000
Sxx Rea'd Allowable fb
63.75 in3 1,000.00 psi
0.00 in3 2,000.00 psi
0.00 in3 1,000.00 psi
Q Right Support
2.16 k
22.762 in2
95.00 psi
Bearing Length Req'd 0.495 in
Bearing Length Req'd 0.495 in
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job #yo@
Dsgnr: Date: 10:00AM, 31 JAN05
Description :
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Description BM25
Section Name 4x4 Center Span 7.00ft . . . . .Lu 0.00 ft
Beam Width 3.500 in Left Cantilever ft ..... Lu 0.00 ft Beam Depth 3.500 in Right Cantilever ft ..... Lu 0.00 ft Member Type Sawn Douglas Fir-Larch, No. 1 Fb Base Allow . 1,OOO.Opsi Load Dur. Factor 1.250 Fv Allow 95.0 psi Beam End Fixity Pin-Pin Fc Allow 625.0 psi E 1,700.0 ksi
Center DL LL 50.00 #Ift Left Cantilever DL Right Cantilever DL #Iff LL #Iff #Ift LL #/ft r Beam Design OK
Span= 7.0Oft, Beam Width = 3.500in x Depth = 3.5in, Ends are Pin-Pin
Max Stress Ratio 0.307 1
Maximum Moment 0.3 k-ft Maximum Shear * 1.5
AI Iowa ble 1.1 k-ft Allowable
Max. Positive Moment 0.34 k-ft at 3.500 ft Shear: Q Left Max. Negative Moment 0.00 k-ft at 0.000 ft Q Right
Max Q Left Support 0.00 k-ft Camber: Q Left
Max Q Right Support 0.00 k-ff Q Center
Max. M allow 1.12
tb 576.00 psi fv 22.08 psi Left DL 0.02 k Max
Fb 1,875.00 psi Fv 118.75 psi Right DL 0.02 k Max
Q Right Reactions ...
0.3 k
1.5 k
0.20 k 0.20 k
0.000 in
0.023 in 0.000 in
0.20 k
0.20 k
I Deflections
Deflection -0.015 in -0.142 in , Deflection 0.000 in 0.000 in
Camber ( using 1.5 * D.L. Defl ) ... Deflection 0.000 in 0.000 in
... Location 3.500 ft 3.500 ft . ..LengthlDefl 0.0 0.0
Q Center 0.023 in . . .LengthlDefl 0.0 0.0
. . . LengthlDefl 5,509.4 590.29 Right Cantilever ...
@ Left 0.000 in
Q Right 0.000 in
Bending Analysis Ck 29.908 Le Cf 1.500 Rb
Q Center Q Left Support
Q Right Support
Shear Analysis Design Shear
Area Required
Fv: Allowable
Bearing @ Supports Max. Left Reaction Max. Right Reaction
0.000 ft 0.000
Max Moment
0.34 k-ft
0.00 k-ft
0.00 k-ft
@ Left Support 0.27 k
2.278 in2
11 8.75 psi
0.20 k
0.20 k
SXX 7.146 in3 Area 12.250 in2 CI 0.000 Sxx Rea'd Allowable fb
2.20 in3 1.875.00 psi
0.00 in3 1,875.00 psi
0.00 in3 1,875.00 psi
Q Right Support
0.27 k
.2.278 in2
11 8.75 psi
Bearing Length Req'd 0.090 in
Bearing Length Req'd 0.090 in
Dunn Savoie Inc.
Structural Engineers 908 S. Cleveland St. Oceanside, CA 92054
Tel: (760) 966-6355
Fax: (760) 966-6360
JOB
CALCULATED BY
SHEET NO.
CHECKED BY
SCALE
BM @
W
Legoland-Knights Quest JOB # 04320.00 m OF
Y.S. DATE 1/05
DATE
W
BM 0
W
PLF (DL) I 12* 4=e;’ = ’;+
PLF (LL) loo x 4.5’ = -470 *= I
PLF (LL)
PLF (DL)
PLF (LL)
W=
USE
ATL = L/
, D/C=
< L/ OK!
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: 1760) 966-6355
Title : Job # yo@
Dsgnr: Date: 11:59AM, 4 FEB 05 Description :
Scope :
Description BM26 (W12x35)
Steel Section : W12X35 FY 36.00 ksi
Center Span 28.00 ft Bm Wt. Added to Loads Elastic Modulus 29,000.0 ksi
Left Cant. 0.00 ft LL & ST Act Together
Pinned-Pinned Load Duration Factor 1 .oo
Right Cant 0.00 ft
Lu : Unbraced Length 0.00 n
#I #2 #3 #4 #5 #6 #7 DL 0.054 Li ST 0.450
Start Location
End Location 28.000
k/ft k/ft wft ft ff
Static Load Case Go Span = 28.00ft, Fy = 36.0ksi ned, Lu = O.OOft, LDF = 1.000
Allowable
52.821 k-ft 90.288 k-ft Max. Deflection -0.902 in
Length/DL Defl 2,256.6 : 1
Length/(DL+LL Defl) 372.6 : 1
fb : Bending Stress 13.900 ksi 23.760 ksi fbIFb 0.585 : 1
7.546 k 54.000 k fv : Shear Stres: 2.012 ksi 14.400 ksi fvIFv 0.140 : I
DL LL LL+ST LL LL+ST Maximum Onlv @. Center @ Center D. Cants @ Cants
Max. M + 52.82 k-ft 8.72 52.82 k-ft Max. M - k-n Max. M Q Len k-ft Max. M Q Right k-R
Shear Q Left 7.55 k 1.25 7.55 k
Shear @ Right 7.55 k 1.25 7.55 k
Center Defl. -0.902 in -0.149 -0.902 -0.902 0.000 0.000 in Left Cant Defl 0.0ooin 0.000 0.000 0.000 0.000 0.000 in Right Cant Defl 0.000 in 0.000 0.000 0.000 0.000 0.000 in ... Query DeR@ 0.000 ft 0.000 0.000 0.000 0.000 0.000 in
Reaction Q Len 7.55 1.25 7.55 7.55 k Reaction Q Rt 7.55 1.25 7.55 7.55 k
Fa calc'd per EQ. E2-1, K'Ur < Cc I Beam Passes Table 85.1, Fb per Eq. Fl-I, Fb = 0.66 Fv
Depth 12.500 in Weight 34.99 #/ft r-xx 5.260 in - Width 6.560in I-XX
Web Thick 0.300 in 1-w
Flange Thickness 0.520 in S-XX Area 10.30 in2 s-w
285.00 in4 r-YY 24.50 in4 Rt 45.600 in3 7.470 in3
1.542 in
1.740 in
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: 17601 966-6355
Title : Job #yo@ Dsgnr: rb Date: 11:59AM, 4 FEB 05
Description :
Scope :
Description BM27
Steel Section : W12X35 . FY 36.00 ksi
Pinned-Pinned Load Duration Factor 1 .oo Center Span 28.00 ft Bm Wt. Added to Loads Elastic Modulus 29,000.0 ksi
Left Cant. 0.00 ft LL & ST Act Together
Right Cant 0.00 ft Lu : Unbraced Lenath 0.00 ft
#I #2 #3 #4 #5 #6 #7
DL 0.065 LL 0.375 ST
Start Location End Location 28.000
Using: W12X35 section, Span = 28.00ft, Fy = 36.0ksi End Fixity = Pinned-Pinned, Lu = O.OOft, LDF = 1.000
Actual
12.250 ksi 0.516 : 1
1.773 ksi
0.123 : 1
Moment 46.549 k-ft fb : Bending Stress fb I Fb
Shear 6.650 k
-fv I FV
,
fv : Shear Stres5
k/ft Wft Wft R R
Beam OK Static Load Case Governs Stress
Allowable
Max. Deflection -0.795 in
LengthlDL Defl 2,008.4 : 1
Length/(DL+LL Defl) 422.8 : 1
90.288 k-ft 23.760 ksi
54.000 k 14.400 ksi
I
1 Force & Stress Summarv c
e-- These columns are Dead + Live Load placed as noted -->> DL LL LL+ST LL LL+ST Maximum Only d Center @. Center @. Cants @ Cants
Max. M + 46.55 k-ft 9.80 46.55 k-ft
Max. M - k-ft
Max. M Q Left k-ft Max. M Q Right k-R
Shear Q Left 6.65 k 1.40 6.65
Shear Q Right 6.65 k 1.40 6.65 k k
Center Defl. -0.795 in -0.1 67 -0.795 -0.795 0.000 0.000 in Left Cant Defl 0.000 !n 0.000 0.000 0.000 0.000 0.000 in Right Cant Defl 0.000 in 0.000 0.000 0.000 0.000 0.000 in ... Query Defl @ 0.000 ft 0.000 0.000 0.000 0.000 0.000 in
Reaction @ Left 6.65 1.40 6.65 6.65 Reaction @ Rt 6.65 1.40 6.65 6.65 k k
Fa calc'd Der Eq. E2-1, K'Ur < Cc I Beam Passes Table B5.1, Fb per Ea. Fl-1, Fb = 0.66 Fv
Depth 12.500 in Weight 34.99 #/ft r-xx 5.260 in Width 6.560in I -xx
Web Thick 0.300 in 1-YY
Flange Thickness 0.520 in S-XX Area 10.30 in2 s-YY
285.00 in4 r-YY 24.50 in4 Rt 45.600 in3 7.470 in3
1.542 in
1.740 in
DUNN SAVOIE INC.
STRUCTURAL ENGINEERS
~ ~~
SHEET NO. 5-7 OF
908 S. Cleveland Street OCEANSIDE. CA 92054 CALCULATED BY DATE
PH. (760) 966-6355 'FAX (760) 966-6360 CHECKED BY DATE
Email: dsi@surfdsi.com
SCALE
t.c tN b
6
1% %- '== 5.5)
- i
SHEET NO.
CALCULATED BY
CHECKED BY
Dunn Savoie Inc.
Structural Engineers 908 S. Cleveland St. Oceanside, CA 92054
Tel: (760) 966-6355 Fax: (760) 966-6360
OF
Y.S. DATE 1/05
DATE
JOB I LEGO-KNIGHTS QUEST 1 JOB# 1 04320.00 1
SCALE I I
LATERAL ANALYSIS OF STRUCTURE
3
4
3 6
Dunn Savole Inc. JOB Legoland-Knights Quest 04320.00 Structural Engineers 908 S. Cleveland St. Oceanside. CA 92054
Tel: (760) 966-6355 Fax: (760) 966-6360
OF SHEET NO
CALCULATED BY Y.S. DATE 1/05
CHECKED BY DATE
-
-
SCALE
PARAMETERS FOR LATERAL ANALYSIS
Dunn Savoie Inc. Structural Engineers
908 S. Cleveland St. Oceanside, CA 9205 Tel: (760) 966-6355
Fax: (760) 966-6360
JOB Leaoland-Kniahts Quest 04320.00
SHEET NO. 62- OF
CALCULATED BY Y.S. DATE 1/05
CHECKED BY DATE
mMlC ANALYSIS Front-Rear Direction
3OOF Area 1978 sq.ft. FLOOR Area 944 sq. ft.
WTOTAL 26.5 kips W TOTAL 41.4 kips
'ORCE DISTRIBUTION (2-st0~)
TOTAL W = 67.9 kips
UNFACTORED BASE SHEAR, V= 0.357 W = 24.2 Kips
LEVEL Wt Ht Wt x Ht F V total f
(k) (ft.) (k) (k) (PSf) ROOF 26.5 I 18 I 477 [ 13.6 1 13.6 I 6.88
FLOOR 41.4 I 91 373 1 10.6 I 24.2 I 11.26
C= 68 850 24.2
IIAPHRAGM FORCES, Fpx
LEVEL CFi wpx W FP~ f
(k) (k) (ft.) (k) (p s9
ROOF 13.6 I 27 I 27 I 13.6 I 6.88
FLOOR 24.2 I 41 I 68 I 14.8 115.66
LEVEL Flr. Ht.
(ft)
2-R 9
1 -2 9
Dunn Savoie Inc. Structural Engineers
908 S. Cleveland St. Oceanside, CA 92054 Tel: (760) 966-6355
Fax: (760) 966-6360
JOB Legoland-Knights Quest 04320.00
SHEET NO. 62 OF
CALCULATED BY Y.S. DATE 1 /05
CHECKED BY DATE
North-South
Seismic Load
o,= 6.0%
w-L= bB‘h
Direction
i
t2dF LEVEL
a 4 3
Dunn Savole Inc. Structural Engineers
908 S. Cleveland St.
Oceanside, CA 92054
Tel: (760) 966-6355 Fax: (760) 966-6360
JOB Legoland-Knights Quest 04320.00
CALCULATED BY Y.S. DATE 1/05
SHEET NO 6% OF
CHECKED BY DATE
SCALE
North-South Direction fM LWfL
.;- 0
d
c
3
4 9 3
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland St. Oceanside, CA 92054
Tel: (760) 966-6355 Fax: (760) 966-6360
JOB Legoland-Knights Quest 04320.00
CALCULATED BY Y.S. DATE 1 I05
SHEET NO. Ir OF
CHECKED BY DATE
SCALE
North-South Direction
Seismic Load
IA)= 11.26~ La' = 90 PLF
3
a 3
3
-7 3 2
Dunn Savoie Inc. Structural Engineers
908 S. Cleveland St. Oceanside, CA 92054 Tel: (760) 966-6355
Fax: (760) 966-6360
JOB Legoland-Knights Quest 04320.00
CALCULATEDBY Y.S. DATE 1/05
SHEET NO. OF
CHECKED BY DATE
~~~
East-West Direction
OSIl Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland St. Oceanside, CA 92054 Tel: (760) 966-6355 Fax: (760) 966-6360
JOB Legoland-Knights Quest 04320.00
CALCULATED BY Y.S. DATE 1 I05
SHEET NO. OF
CHECKED BY DATE
SCALE
East-West Direction
I
i\
P
-@ 4 h
\\
dJ \
cr
6
h
'.o
c
c
c
I H
3 I
k
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F2
DUNN SAVOIE INC. SHEETN0.A. OF STRUCTURAL ENGINEERS
OCEANSIDE, CA 92054 908 S. Cleveland Street CALCULATED BY DATE
PH. (760) 966-6355 FAX (760) 966-6360 CHECKED BY DATE .. Email: dsi@surfdsi.com
SCALE
z.
3.
/ ok !
SHEET NO. 70 OF DUNN SAVOIE INC.
STRUCTURAL ENGINEERS
OCEANSIDE, CA 92054
Email: dsi@surfdsi.com
908 S. Cleveland Street CALCULATED BY DATE
PH. (760) 966-6355 FAX (760) 966-6360 CHECKED BY DATE
SCALE
DUNN SAVOIE INC.
STRUCTURAL ENGl N EERS 908 S. Cleveland Street OCEANSIDE. CA 92054 PH. (760) 966-6355 .FAX (760) 966-6360 CHECKED BY DATE
Email: dsi@surfdsi.com
SCALE
;i
Dunn Savoie Inc. Title : Job # jiO@
Structural Engineers
908 S. Cleveland Street
Dsgnr: -?L Date: 2:47PM, 28JAN05 Description :
Oceanside, CA 92054 Scope : Tel: (760) 966-6355 I
I
Description 8x8 Wood Post Sleeve Base Plate
/ -
Loads Steel Section
Axial Load 8.50 k
X-X Axis Moment 12.34 k-ft
Plate Dimensions
Plate Length 15.000 in
Plate Width 15.000 in
Plate Thickness 0.750 in
Support Pier Size
Pier Length 40.000 in
Pier Width 40.000 in
Section Length
Section Width Flange Thickness
Web Thickness
Allowable Stresses
Concrete fc Base Plate Fy
Load Duration Factor
Anchor Bolt Data
Dist. from Plate Edge
Bolt Count per Side
Tension Capacity
Bolt Area
8.000 in
8.000 in
0.250 in
0.250 in
3,000.0 psi 36.00 ksi
1.330
2.000 in
2
5.500 k
0.442 in2
Baseplate OK
Concrete Bearing Stress Bearing Stress OK
Actual Bearing Stress 460.4 psi
Allow per AC1318-95, A3.1
2,394.0 psi
Allow per AlSC J9 2,793.0 psi
Actual fb 22,844.9 psi
Max Allow Plate Fb 35,910.0 psi
Actual Tension 3.378 k
Allowable 5.500 k
= 0.3 * P'c Sqrt(AZ/Al) LDF
Plate Bending Stress Thickness OK
Tension Bolt Force Bolt Tension OK
Partial Bearing : Bolts in Tension
e
JOB
SHEET NO
CALCULATED BY
LEGO-KNIGHTS QUEST JOB# 04320.00
13 OF
Y.S. DATE 1/05
ANALYSIS OF DIAPHRAGMS
25
Case 1
Diaph Level L B B1 B2 W1 (PLF) W2 (PLF) Thickness
1 Roof 11.5 28 0 28 118 48 15/32
2 Roof 12 22 0 22 93 50 15/32
b 3 Deck 8 13 0 13 204 lz/d 4"W2 ~
-
-- .
-
Panel Grade
Sheathing and Single-Floor
Diaphragm Design
Unblocked Min. Min. Member Blocked Nail Spacing
Common Penetratior Thickness Width Boundary 1 Other Edges
Nail (in) (in) (in) 616 I 416 I 2.514 I 213 Case1 I Others
10d 1 5/13 15/32 2 290 I 385 I 575 I 655 255 I 190
INPUT DATA
LATERAL FORCE ALONG L SIDE: w, = 118 plf,for wind
LATERAL FORCE ALONG B SIDE: wB, = 48 plf,for wind
DIMENSIONS: L= 11.5 ft, B = 28 fl
PANEL GRADE ( 0 or 1) = 1 <=Sheathing and Single-Floor
MINIMUM NOMINAL FRAMING WITH (2 or 3) = 2 in
MINIMUM NOMINAL PANEL THICKNESS = 15/32 in
:OMMON NAIL SIZE ( 0=6d, 1=8d, 2=10d ) 2 10d
SPECIFIC GRAVITY OF FRAMING MEMBERS
wL, = 11 8 plf,for seismic
we, = 48 plf,for seismic
Bq= 0 ft. B2= 28 ft
0.5
DESIGN SUMMARY
A,: (2)-Oftx28fl
BLOCKED 15/32 SHEATHING WITH 10d COMMON NAILS
Q 6 in O.C. BOUNDARY I6 in O.C. EDGES / 12"0.C. FIELD.
A,: (2)-0ft~28fl
BLOCKED 15/32 SHEATHING WmH 10d COMMON NAILS
Q 6" O.C. BOUNDARY &EDGES I12" O.C. FIELD.
A,: (1) - 11.50 ftX 28 ft
UNBLOCKED 15/32 SHEATHING WITH 10d COMMON NAILS
Q 6 O.C. ALL EDGES /IT O.C. FIELD.
THECHORDFORCES: TL=CL= 0.07 k , TB=CB= 0.41 k
THE DRAG STRUT FORCES Fq = 0.95 k , F2= 1.90 k
THE MAXIMUM DAPHRAGM DEFLECTION: A = 0.89 in
ANALYSIS
THE DIAPHRAGM IS CONSIDED FLEXIBLE IF ITS MAXIMUM LATERAL DEFORMATION IS MORE THAN TWO TIMES THE AVERAGE SHEAR
NALL DEFLECTION OF THE ASSOCIATED STORY. WITHOUT FURTHER CALCULATIONS, ASSUME A FLEXIBLE DIAPHRAGM HERE.
-ROM THE TABLE 3.1 IN ASD MANUAL SUPP, PAGE SP-12, THE PANEL BENDING STRENGTH CAPACITY IS 355 in-lbdft, THAT IS THE
JIAPHRAGM CAN RESISTS 59 psf GRAVITY LOADS (DL+LL) AT z'-a" O.C. SPACING SUPPORTS.
THE MAX DAPHTAGM DIMENSION RATIO LIB = 0.4 c 3, [satisfactory]
THE MAX SHEAR FORCE ALONG B SIDE vL = 24 plf, ( Boundary Spacing = 6 in, EdgesReqD= 6 in)
THE MAX SHEAR FORCE ALONG L SIDE vB = 58 plf, ( Required BoundarylEdges Nail Spacing for Case 3 = 6 in )
THE ALLOWABLE SHEAR FORCE FOR CASE 1 @, 8 in NAIL SPACING vi = 290 plf, L1 = 5.8 R
THE MAX ALLOWABLE UNBLOCKED SHEAR FORCE FOR CASE 1 V2= 255 plf, L2= 5.8 fl
THE CHORD FORCES: TL=CL=(wLL2)I(8B) : 0.07 k TB=CB=(WBB~)/(EL) = 0.41 k
THE DRAG STRUT FORCES: F1 = 0.5 (B-2Bl) VI. WIND- Gv1. SEISMIC) = 0.95 k
1.90 k ( to = 2.8 )
F2= 82 vi. WIND, %Vi. SEEMIC) =
THE MAXIMUM DIAPHRAGM DEFLECTION: ( Section 3.3, ASD MANUAL SUUP, Page SW-12)
Where: V,= 24 plf
A= 21.75 in'
t= 0.298 in
L= 12 fl E = 1.7E+06 psi
B= 28 ft G = 9.OE+04 psi
en= 0.037 in b(D&)= 45.00 in
Techincal References:
1. "National Design Specification, NDS", 2001 Edition, AF&AP, AWC, 2001.
2. Alan Williams: "Structuiral Engineering Reference Manual", Professional Publications, Inc, 2001.
Diaphragm Design
~~
Panel Grade
Sheathing and Single-Floor
INPUT DATA
ATERAL FORCE ALONG L SIDE: WL, ~ND = 93
wL. SElSMlC = 93
ATERAL FORCE ALONG B SIDE: WE, WINO = 50
SEISMIC = 50
IIMENSIONS: L= 12 n, B = 22
'ANEL GRADE ( 0 or 1) = I <= Sheathing and
WlNlMUM NOMINAL FRAMING WITH (2 or 3) = 2
MINIMUM NOMINAL PANEL THICKNESS = 15/32
2
SPECIFIC GRAVITY OF FRAMING MEMBERS 0.5
Bj= 0 ft, B2= 22
2OMMON NAIL SIZE ( 0=6d, 1=8d, 2=10d )
~ Blocked~Nail Spacing- ~ ~~____~ Unblocked Min. Min. Member
Common Penetratior Thickness Width Boundary /Other Edges
Nail (in) (in) (in) 6/6 I 416 I 2.5/4 I 2/3 Case 1 I Others
10d 1 5/8 15/32 2 290 I 385 1 575 I 655 255 I 190
plf.for wind
plf,for seismic
pif,for wind
pif,for seismic
n n
Single-Floor
in
in
1 Od
DESIGN SUMMARY
Ai: (2)-0ftx22R
BLOCKED 15/32 SHEATHING WITH IOd COMMON NAILS
Q 6 in O.C. BOUNDARY I6 in O.C. EDGES / 12"O.C. FIELD.
Az: (2)-0ftx22ft
L Lr 1 I
r? m -
Wt s
Cose 1 I
BLOCKED 15/32'SHEATHlNG WITH 10d COMMON NAILS
Q 6" O.C. BOUNDARY & EDGES / 12" O.C. FIELD.
UNBLOCKED 15/32 SHEATHING WITH 10d COMMON NAILS
Q 6" O.C. ALL EDGES / 12" O.C. FIELD.
AS: (I) - 12.00 ft x 22 n
THE CHORDFORCES: TL=CL= 0.08 k , TB=CB= 0.25 k
THE DRAG STRUT FORCES F1= 0.78 k , F2= 1.56 k
THE MAXIMUM DIAPHRAGM DEFLECTION: A = 1.11 in
4NALYSIS
THE DIAPHRAGM IS CONSIDED FLEXIBLE IF ITS MAXIMUM LATERAL DEFORMATION IS MORE THAN TWO TIMES THE AVERAGE SHEAR
NALL DEFLECTION OF THE ASSOCIATED STORY. WITHOUT FURTHER CALCULATIONS, ASSUME A FLEXIBLE DIAPHRAGM HERE.
-ROM THE TABLE 3.1 IN ASD MANUAL SUPP. PAGE SP-12, THE PANEL BENDING STRENGTH CAPACITY IS 355 in-IbM, THAT IS THE
IIAPHRAGM CAN RESISTS 59 psf GRAVITY LOADS (DL+LL) AT 2'-0" O.C. SPACING SUPPORTS.
THE MAX DIAPHTAGM DIMENSION RATIO L I B = 0.5 c 3, [satisfactory]
THE MAX SHEAR FORCE ALONG B SIDE v, = 25 plf. ( Boundary Spacing = 6 in, EdgesReqD= 6 in)
THE MAX SHEAR FORCE ALONG L SIDE vB = 46 plf, ( Required Boundary/Edges Nail Spacing for Case 3 = 6 in)
THE ALLOWABLE SHEAR FORCE FOR CASE 1 Q, 6 in NAIL SPACING Vi = 290 plf, Lq = 6.0 R
THE MAX ALLOWABLE UNBLOCKED SHEAR FORCE FOR CASE 1 v2= 255 ptf, L~ = 6.0 n
THE SHEAR CAPACITIES PER UBC Table 23-I-J-1 & CBC Table 23A-ll-H :
THE MAXIMUM DIAPHRAGM DEFLECTION: (Section 3.3, ASD MANUAL SUUP, Page SW-12)
Where: VL= 25 plf
A= 21.75 in'
t = 0.298 in
L= 12 a E = 1.7E+06 psi
B= 22 n G = 9.OE+04 psi
en= 0.037 in b(D&)= 45.00 in
Techincal References:
1. "National Design Specification, NDS'. 2001 Edition, AF&AP, AWC, 2001.
2. Alan Williams: "Structuiral Engineering Reference Manual", Professional Publications, Inc, 2001
DUNN SAVOIE INC.
STRUCTURAL ENGINEERS 908 S. Cleveland Street OCEANSIDE. CA 92054
JOB
SHEET NO. 79 OF
CALCULATED BY DATE
PH. (760) 966-6355 'FAX (760) 966-6360 CHECKED BY DATE Email: dsi@suddsi.com
V' w2 NW VEpb PECK
Dunn Savoie Inc. Structural Engineers 908 S. Cleveland St.
Oceanslde, CA 92054
Tel: (760) 966-6355 Fax: (760) 966-6360
JOB LEGO-KNIGHTS QUEST JOB# 04320.00
. SHEETNO 9Q OF
CALCULATED BY Y.S. DATE 1 /05
CHECKED BY DATE
SCALE
DESIGN OF RETAINING WALLS
DUNN SAVOIE INC. SHEETNO.B\ OF STRUCTURAL ENGINEERS
OCEANSIDE, CA 92054
Email: dsi@surfdsi.com
908 S. Cleveland Street CALCULATED BY DATE
PH. (760) 966-6355 FAX (760) 966-6360 CHECKED BY DATE
SCALE
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: 1760) 966-6355
Title : Job # yo@ Dsgnr: e Date: 11:55AM, 4 FEB 05
Description :
Scope :
Page 1 Rev 560100 User KW-0602938, Ver 5 6 lI25-0c1-2O02 (c)1983-2002 ENERCALC Engineering Software Cantilevered Retaining Wall Des ig u \yshao\shared\engineering\commerualuegola 1
Description Cone Retaining Wall @ platform with post shear rms
I Criteria Ir
Retained Height = 9.50ft
Wall height above soil = 0.00ft
Slope Behind Wall = 0.00 : 1
Height of Soil over Toe = 0.00 in
Soil Density = 11o.oopcf
- Wind on Stem - 0.0 psf
1 Footina Strenaths & Dimensions b 1
Allow Soil Bearing = 2,500.0 psf fc = 3,000 psi Fv = 60,OOOpsi
Equivalent Fluid Pressure Method Min. As % 0.0014
Toe Width 3.00 ft Heel Active Pressure = 35.0
Heel Width 1.75 Toe Active Pressure = 0.0
Passive Pressure = 300.0 Total Footing Width 4.75 Water height over heel = 3.0 ft Footing Thickness 15.00 in FootingllSoil Friction = 0.300 Key Width 12.00 in Key Depth 30.00 in Soil height to ignore
l.0Oft Key Distance from Toe for passive pressure = 0.00 in
Cover @ Top = 3.00in @ Btrn.= 3.00 in
Axial Dead Load = 2.016.0 Ibs Axial Load Eccentricity = 4.5 in Axial Live Load = 3,200.0 Ibs
Top Stem
Stem OK
... resultant ecc. - 1.93 in Wall Material Above "Ht" = Concrete
Total Bearing Load = 9,151 Ibs Design height ft= 0.00 -
Soil Pressure Q Toe = 2,318 psf OK
Soil Pressure Q Heel = 1,535 psf OK
Soil Pressure Less Than Allowable
Allowable = 2,500 psf
ACI Factored @ Toe = 3,288 psf
ACI Factored @ Heel = 2,178 psf
Footing Shear @ Toe = 41.2 psi OK
Footing Shear @ Heel = 18.4 psi OK Allowable - - 93.1 psi
Overturning Sliding - 1.62 OK
- 2.51 OK
Wall Stability Ratios
-
Sliding Calcs (Vertical Component Used)
I Lateral Sliding Force = 2,406.6 Ibs less 100% Passive Force - 2,109.4 Ibs
less 100% Friction Force= - 1,785.3 Ibs
Added Force Req'd = 0.0 Ibs OK
c .... for 1.5 : 1 Stability = 0.0 Ibs OK
c
-- Toe Heel
Factored Pressure = 3,288 2,178 psf Mu' : Upward Mu' : Downward Mu: Design
Actual I-Way Shear
Allow 1-Way Shear
Toe Reinforcing Heel Reinforcing Key Reinforcing
-
c
- - 0 0 it-# - 0 1,603 ft# -
= 11,926 1,603ft-#
= 41.24 18.41 psi = 93.11 93.11 psi
= # 5@ 12.75 in = #5@ 18.00 in = #4 Q 16.00 in
Thickness Rebar Size
Rebar Spacing
Rebar Placed at
fblFB + falFa
Total Force Q Section Ibs =
Moment.. . .Actual ft-# = Moment.. ... Allowable -
Shear ..... Actual psi =
Shear ..... Allowable psi =
Bar Develop ABOVE Ht. in =
- - - - - - - -
Design Data - -
-
10.00 #6
10.00
Edge
0.706
3,010.4
1 1,926.2
16,883.4
32.9
93.1
25.63
Bar LaplHook BELOW Ht. in = 7.94
Rebar Depth 'd' in = 7.63
fm psi =
Fs psi =
Solid Grouting
Special Inspection
Modular Ratio 'n'
Short Term Factor
Masonry Block Type =
fc psi= 3,000.0
FY psi = 60,000.0
Toe: Heel:
Key:
Wall Weight = 120.8
Masonry Data
- - - - - - - - - Equiv. Solid Thick. -
Concrete Data
Other Acceptable Sizes 8 Spacings
Dunn Savoie Inc.
Structural Engineers
Oceanside, CA 92054
Tel: 1760) 966-6355
- 908 S. Cleveland Street
Job # YO@ Date: 11:55AM, 4 FEB 05 Title : .&3 Dsgnr:
Description :
scope :
Rev: 560100 Page 2 Cantilevered Retaining Design u:\yshao\shared\engineering\commerciahlegola 1 User: KW-0602938, Ver 5.6.1, 25-013-2002 (c)1983-2002 ENERCALC Engineering Software -
Description Cone Retaining Wall @ platform with post shear rms
c
..... OVERTURNING ..... ..... RESISTING ..... Force Distance Moment Force Distance Moment - Item Ibs ft ft4 Ibs ft ft# - Heel Active Pressure = 2,406.6 3.24 7,791 .I Soil Over Heel - 957.9 4.29 4,111 .I
Toe Active Pressure = Sloped Soil Over Heel =
Surcharge Over Toe = Surcharge Over Heel =
Adjacent Footing Load = Adjacent Footing Load =
Added Lateral Load = Axial Dead Load on Stem= 2,016.0 3.04
Load @ Stem Above Soil = Soil Over Toe - -
c SeismicLoad - - Surcharge Over Toe =
Stem Weight(s) = 1,147.9 3.42 3,922 .O
Total = 2,406.6 O.T.M. = 7.791.1 Earth @ Stem Transitions=
-
6,132.0
- ResistinglOverturning Ratio = 2.51 Footing Weight - 890.6 2.38 2,115.2 - Key Weight - 375.0 1.50 562.5 - 563.6 4.75 2,677.3 Vert. Component
19,520.1
- Vertical Loads used for Soil Pressure = 9,151 .I Ibs
Vertical component of active pressure used for soil pressure Total = 5,951.1 Ibs R.M.=
10.h
#5@12,75in
@Toe
Designer select
#5@18.in all horiz. reinf.
@ Heel
4l-9" I L
9'-6"
i' 7
T-6"
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job # yo@
Dsgnr: '' Date: 11:55AM, 4 FEB 05 Description :
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Page 1 Rev: 560100 User: KW-0602938, Ver 5.6.1. 25-Oct-2002 (c)1983-2002 ENERCALC Engineering Software Retaining Wall Design u\yshao\shared\engineering\comrnrnercial\legoia 1
Description 9ft Conc Retaining Wall @ platform with post shear EQ 10/S301
I Criteria
Retained Height = 9.50ft
Wall height above soil = 0.00 ft
Slope Behind Wall = 0.00 : 1
Height of Soil over Toe = 0.00 in
Soil Density = 110.00 pcf
0.0 psf - Wind on Stem -
I Surcharae Loads b
Surcharge Over Heel = 0.0 psf NOT Used To Resist Sliding & Overturning Surcharge Over Toe = 0.0 psf NOT Used for Sliding & Overturning
I Desian Summarv b
Total Bearing Load = 9.151 Ibs ... resultant ecc. -
Soil Pressure @ Toe = 2.735 psf OK Soil Pressure @ Heel = 1 ,I 18 psf OK
Soil Pressure Less Than Allowable
3.99 in -
Allowable = 3,250 psf
ACI Factored @ Toe = 3,880 psf ACI Factored @ Heel = 1,586 psf
Footing Shear @ Toe = 46.2 psi OK
Footing Shear @ Heel = 18.4 psi OK - Allowable - 93.1 psi
- 2.09 OK 1.52 OK
Wall Stability Ratios Overturning -
Sliding -
Lateral Sliding Force = 2,559.6 Ibs less 100% Passive Force - 2,109.4 Ibs
less 100% Friction Force= - 1,785.3 Ibs
Added Force Req'd = 0.0 Ibs OK .... for 1.5 : 1 Stability = 0.0 Ibs OK
-
Sliding Calcs (Vertical Component Used)
I ... .......... ....... .... ..... ............ ..... .... ..... ............... .. . . .. .. ..... .. . . .. . .................... j
Allow Soil Bearing = 3,250.0 psf
Equivalent Fluid Pressure Method
Heel Active Pressure = 35.0
Toe Active Pressure = 0.0 Passive Pressure = 300.0 Water height over heel = 3.0 ft
FootingllSoil Friction = 0.300
Soil height to ignore for passive pressure = 0.00 in
fc = 3,000 psi Fy = 60,OOOpsi - 0.0014 Min. As %
Toe Width - 3.00 ft Heel Width - 1.75
Total Footing Width = 4.15 - 15.00 in Footing Thickness
Key Width = 12.00 in 30.00 in
- - -
-
- Key Depth -
Key Distance from Toe = 1 .oo ft
Cover@ Top = 3.00in @ Btm.= 3.00 in
Lateral Load = 153.0 #/ft ... Height to Top = 9.50ft ... Height to Bottom = 8.50 ft
Axial Dead Load = 2,016.0 Ibs Axial Live Load = 3,200.0 Ibs Axial Load Eccentricity = 4.5 in
Factored Pressure Mu' : Upward Mu' : Downward Mu: Design
Actual 1-Way Shear Allow 1-Way Shear
Toe Reinforcing Heel Reinforcing
' Key Reinforcing
Toe Heel = 3,880 1,586 psf
= 15.287 0 A# = 1,181 1,603ft# = 14,106 1,603ft#
= 46.23 18.41 psi = 93.11 93.11 psi = #5@ 12.75 in = #5@ 18.00 in = #4@ 16.00 in
--
TopStem 2nd
Stem OK Stern OK Design height ft= 2.67 0.00
Wall Material Above "Ht"
Thickness Rebar Size
Rebar Spacing
Rebar Placed at
fb/FB + falFa
Total Force @ Section
Moment .... Actual
Moment. .. . .Allowable
Shear ..... Actual
Shear .... .Allowable
Design Data
Concrete Concrete
10.00 10.00
#5 #6
12.00 10.00
Edge Edge
- -
Ibs =
ft-# =
ft-# =
psi =
psi =
0.719 0.845
1,651.8 3,270.5
7,904.8 14,267.1
10,996.3 16,883.4
16.8 35.7
93.1 93.1
Bar Develop ABOVE Ht. in = 21.36 25.63
Bar Lap/Hook BELOW Ht. in = 21.36 9.60
Wall Weight psf= 120.8 120.8
Rebar Depth 'd' in = 8.19 7.63
Prn psi =
Fs psi =
Solid Grouting Special Inspection - Modular Ratio 'n' -
Short Term Factor
Equiv. Solid Thick.
Masonry Block Type =
fc psi = 3,000.0 3,000.0
FY psi = 60,000.0 60,000.0
Toe: Heel: Key:
Masonry Data
- - - - - - - -
Concrete Data
Other Acceptable Sizes Ut Spacings
-
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job # yo@
Dsgnr: %b Date: 11:55AM, .4 FEB 05 Description :
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Page 2 Rev: 560100 User. KW-0602938, Ver 5.6.1. 25-Ocl-2002 (c)1983-2002 ENERCALC Engineering Software Can tilevered Retaining Wall Design u:\yshao\shared\engineering\cammercial\legala 1 I
Description 9R Conc Retaining Wall @ platform with post shear EQ lOIS301
..... OVERTURNING ..... ..... RESISTING ..... Force Distance Moment Force Distance Moment Item Ibs ft ft# Ibs ft R-#
Heel Active Pressure = 2,406.6 3.24 7,791 .I Soil Over Heel - 957.9 4.29 4,111.1
Toe Active Pressure = Sloped Soil Over Heel = - Surcharge Over Toe = Surcharge Over Heel =
Adjacent Footing Load = Adjacent Footing Load =
Added Lateral Load = 153.0 10.25 1,568.3 Axial Dead Load on Stem = 2,016.0 3.04 6,132.0
Load @ Stem Above Soil =
- -
Soil Over Toe
Stem Weight@) = 1,147.9 3.42 3,922.0
- - - SeismicLoad - - Surcharge Over Toe =
Total = 2,559.6 O.T.M. = 9,359.3 Earth Q Stem Transitions= - ResistinglOverturning Ratio = 2.09 Footing Weight - 890.6 2.38 2,115.2
Key Weight - 375.0 1.50 562.5 - 563.6 4.75 2,677.3
Total= 5,951.1 Ibs R.M.= 19,520.1
- - Vertical Loads used for Soil Pressure = 9,151.1 Ibs
Vertical component of active pressure used for soil pressure
Vert. Component
Job #yo@
Date: 11:56AM. 4 FEB 05 Title : %7 Dsgnr: Description :
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Rev: 560100 Page 1
Description
Can ti'evered Rets g g u:\yshao\shared\engineering\commercial\legola 1 User: KW-0602938. Ver 5.6.1, 25-Ocl-ZW2 (c)l983-2002 ENERCALC Engineering Soflware
Concrete Retaining Wall @ platform with post shear
[ Criteria h
Retained Height = 9.50ft
Wall height above soil = 0.00 ft
Slope Behind Wall = 0.00: 1
Height of Soil over Toe = 0.00 in
Soil Density = 110.00 pcf
0.0 psf - Wind on Stem -
Surcharge Over Heel = . 0.0 psf NOT Used To Resist Sliding & Overturning
Surcharge Over Toe = 0.0 psf
NOT Used for Sliding & Overturning
. . ............. .. . ... . . ......... . ....... ... ... .. ... .. .. . . .. .. . .. .. .... .. .. .... . . ...... .... .. i
Allow Soil Bearing = 2,500.0 psf fc = 3,000 psi Fy = 60,OOOpsi
Equivalent Fluid Pressure Method Min. As % = 0.0014
Total Footing Width = Passive Pressure = 300.0 6.00 Water height over heel = 3.0 ft Footing Thickness FootingIlSoil Friction = 0:300 Key Width
- Heel Active Pressure = 35.0 Toe Width - 4.00 ft
Toe Active Pressure = 0.0 Heel Width - 2.00
Soil height to ignore Key Depth - 0.00 in
-
- - 18.00 in
- 0.00 in
Key Distance from Toe = 0.00 ft
- - for passive pressure = 0.00 in
Lateral Load = 153.0#/ft Axial Dead Load = 2,016.0 Ibs ... Height to Top = 9.50 ft Axial Live Load = 3,200.0 Ibs ... Height to Bottom = 8.50 ft Axial Load Eccentricity = 4.5 in
Total Bearing Load = 9,523 Ibs
Top Stem
Stem OK Design height ft= 0.00 0.71 in - ... resultant ecc. -
Soil Pressure @ Toe = 1,494 psf OK Soil Pressure @ Heel = 1,680 psf OK
Soil Pressure Less Than Allowable
Allowable = 2,500 psf
ACI Factored @ Toe = 2,113 psf ACI Factored Q Heel = 2,376 psf
Footing Shear @ Toe = 29.8 psi OK
Footing Shear @ Heel = 17.7 psi OK
Overturning
Sliding Calcs Slab Resists All Sliding !
93.1 psi
2.74 OK
- Allowable -
Wall Stability Ratios - - - Sliding - 0.83 UNSTABLE1
Lateral Sliding Force = 2,701.3 Ibs
-- Toe Heel Factored Pressure = 2,113 2,376 psf Mu' : Upward Mu' : Downward Mu: Design
Actual 1-Way Shear Allow 1-Way Shear
Toe Reinforcing
Heel Reinforcing
Key Reinforcing
0 0 it# - -
0 2,381 ft# = 14,267 2,381 ft#
= 29.82 17.69 psi = 93.11 93.11psi
= #5 @ 12.75 in = #5@ 18.00in = NoneSpec'd
- -
Wall Material Above "Ht" = Concrete
Thickness = 10.00 Rebar Size = #6
Rebar Spacing = 10.00
Rebar Placed at = Edge I
Total Force Q Section Ibs = 3,270.5
Moment.. ..Actual ft#= 14,267.1
Moment. .. . .Allowable = 16,883.4
Shear ..... Allowable psi = 93.1
Bar Develop ABOVE Ht. in = 25.63
Bar LaplHook BELOW Ht. in = 9.60
Wall Weight = 120.8
Rebar Depth 'd' in = 7.63
fm psi =
Fs psi =
Design Data - fblFB + falFa 0.845
Shear .... .Actual psi = 35.7
Masonry Data
- Solid Grouting - Special Inspection - -
Modular Ratio 'n'
Short Term Factor
Equiv. Solid Thick. Masonry Block Type =
fc psi= 3,000.0
FY psi = 60,000.0
Toe:
Heel:
Key:
- - - - - -
Concrete Data
Other Acceptable Sizes EL Spacings
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job # YO@
Dsgnr: Date: 11:56AM, 4 FEB 05 Description :
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Page 2 Rev 560100 User KW-0602938, Ver 5 6 1,25-0ct-2002 (c)l983-2002 ENERCALC Engineering Software Retaining Design u\yshao\shared\engineering\cornmercial\legola [
Description Concrete Retaining Wall @ platform with post shear
..... OVERTURNING ..... ..... RESISTING ..... Force Distance Moment Force Distance Moment Item Ibs ft ft#
Heel Active Pressure = 2,548.3 3.30 8,410.3
Toe Active Pressure =
Surcharge Over Toe =
Adjacent Footing Load =
Added Lateral Load = 153.0 10.50 1,606.5
Load @ Stem Above Soil =
SeismicLoad - -
Total = 2,701.3 O.T.M. = 10,016.8
ResistInglOverturning Ratio = 2.74
Vertical Loads used for Soil Pressure = 9,523.2 Ibs
Vertical component of active pressure used for soil pressure
Ibs ft ft#
Soil Over Heel = 1,219.2 5.42 6,603.8
Sloped Soil Over Heel =
Surcharge Over Heel =
Adjacent Footing Load =
Axial Dead Load on Stem = 2,016.0 4.04 8,148.0 Soil Over Toe -
Surcharge Over Toe =
Stem Weight@) = 1,147.9 4.42 5,070.0
Earth @ Stem Transitions=
Footing Weight = 1,350.0 3.00 4,050.0
Key Weight -
Vert. Component 590.2 6.00 3,540.9
Total 3 6,323.2 Ibs R.M.= 27,412.7
-
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job # PO@
Dsgnr: 8y Date: 11 :%AM, 4 FEB 05 Description :
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
I - -_ - . - - I Page I KeV: 5WlUU Can tilevered Retaining Design u.\yshao\shared\engineering\comrnerciahlegola I User: KW-0602938, Ver 5.6.1, 25-Oct-2002 (c)l983-2002 ENERCALC Engineering Software
Description 3fiConc Retaining Wall btwn ramps elev 3/S301
Retained Height = 3.00R
Wall height above soil = 1.00 R
Slope Behind Wall = 0.00 : 1
Height of Soil over Toe = 6.00 in
Soil Density = 110.00 pcf
- Wind on Stem 0.0 psf
Isoil Data I I Footina Strenaths & Dimensions b
Allow Soil Bearing = 2,500.0 psf Equivalent Fluid Pressure Method Heel Active Pressure = 35.0
Toe Active Pressure = 0.0 Passive Pressure = 300.0
Water height over heel = 3.0 R
FootingllSoil Friction = 0.300
Soil height to ignore for passive pressure = 0.00 in
fc = 3,000 psi Fy = 60,OOOpsi
Min. As % = 0.0014
1 .oo R
1.25 Toe Width Heel Width Total Footing Width = 2.25
Footing Thickness - 15.00 in
7.00 in - 5.00 in Key Width
Key Depth
Key Distance from Toe = 0.00 R
- - - -
-
- - -
Cover @ Top = 3.00 in @ Btm.= 3.00 in
Top Stem
Stem OK
... resultant ecc. 6.78 in Wall Material Above "Ht" = Concrete
Total Bearing Load = 1,222 Ibs Design height ff= 0.00 - -
Soil Pressure @ Toe = 1,455 psf OK
Soil Pressure @ Heel = 0 psf OK
Soil Pressure Less Than Allowable
Allowable = 2,500 psf
ACI Factored Q Toe = 1,891 psf
Footing Shear Q Toe = 0.5 psi OK
Footing Shear Q Heel = 3.3 psi OK
ACI Factored Q Heel = 0 psf
- Allowable - 93.1 psi
Overturning 1.69 OK
Wall Stability Ratios - - Sliding - 1.53 OK
Lateral Sliding Force = 700.3 Ibs less 100% Passive Force: - 704.2 Ibs
less 100% Friction Force= - 366.7 Ibs
Added Force Req'd = 0.0 Ibs OK .... for 1.5 : 1 Stability = 0.0 Ibs OK
Sliding Calcs (Vertical Component Used)
Thickness Rebar Size
Rebar Spacing
Rebar Placed at
fblFB + fa/Fa
Total Force @ Section
Moment .... Actual
Moment ... . .Allowable
Shear ... ..Actual
Shear ..... Allowable
Design Data
10.00 #6 10.00
Edge
- -
Ibs =
R-# =
psi =
psi =
- -
0.035
593.2
593.2
16,883.4
6.5
93.1
Bar Develop ABOVE Ht. in = 25.63
Bar Lap/Hook BELOW Ht. in = 6.00
Rebar Depth 'd' in = 7.63
fm psi =
Fs psi =
Solid Grouting
Special tnspe,ction
Modular Ratio 'n'
Wall Weight = 120.8
Masonry Data
- - - - - - - Toe Heel Short Term Factor - -- - Factored Pressure = 1,891 0 psf Equiv. Solid Thick. -
Mu: Design - 588 125 R# fc psi= 3,000.0
- - Mu' : Upward 758 0 R-# Masonry Block Type = Mu' : Downward = 170 125 R-# Concrete Data
Actual I-Way Shear = 0.46 3.27 psi FY psi = 60,000.0
Allow l-way Shear = 93.1 1 93.11 Psi Other Acceptable Sizes & Spaclngs Toe Reinforcing = # 5 Q 12.75 in Toe: Heel Reinforcing = # 5 Q 18.00 in Heel: Key Reinforcing = None Spec'd Key:
-
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054
Tel: (760) 966-6355
Title : Job # jiO@
Dsgnr: '' Date: 1 ISAM, 4 FEB 05 Description :
Scope :
..
Page 2 Rev: 560100 User: KW-0602938. Ver 5 6.1,25-0ct-2002 (c)1983-2002 ENERCALC Engineering Software Rets ing Wall Design u:\yshao\shared\engineering\cornmarcial\legola 1
Description 3ft Conc Retaining Wall btwn ramps elev 3/S301
..... OVERTURNING ..... ..... RESISTING ..... Force Distance Moment Force Distance Moment Item Ibs n n-# Ibs ft ft-#
Heel Active Pressure = 700.3 1.42 992.1 Soil Over Heel 137.5 2.04 280.7
Toe Active Pressure = Sloped Soil Over Heel =
Surcharge Over Toe = Surcharge Over Heel =
Adjacent Footing Load = Adjacent Footing Load =
Load Q Stem Above Soil = Soil Over Toe 55.0 0.50 27.5
Stem Weight(s) 483.3 1.42 684.7
ResistinglOverturning Ratio = 1.69 Footing Weight 421.9 1.13 474.6
- -
Added Lateral Load = Axial Dead Load on Stem = 0.00
SeismicLoad - Surcharge Over Toe =
Total 700.3 O.T.M. = 992.1 Earth @ Stem Transitions=
- - - - - - - - - - - 36.5 0.29 10.6
88.1 2.25 198.2
Total = 1,222.3 Ibs R.M.= 1,676.4
Key Weight
Vert. Component - - Vertical Loads used for Soil Pressure = 1,222.3 Ibs
Vertical component of active pressure used for soil pressure
10.in Conc wl#6 @ 1O.in olc ~
I
@Toe
Designer selecl
#5@18.in all horiz. reinf.
Q Heel
2 112"
2'3" L
i
4'-0"
3-0"
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054 I
Title : Job # YO@
Dsgnr: ' Date: 11:55AM, 4 FEB 05 Description :
Scope : Tel: (760) 966-6355
Rev: 560100 Page 1
Description
Retaining Design u\yshao\shared\engineering\coinrnercial!legola 1 User KW-0602938. Ver 5.6.1,25-0ct-2002 - (c)l983-2002 ENERCALC Engineering Software
5ft Conc Retaining Wall btwn ramps elev 3NS301
Retained Height = 5.00R
Wall height above soil = 1 .OO ft
Slope Behind Wall = 0.00 : 1
Height of Soil over Toe = 6.00 in
Soil Density = 110.00 pcf
- Wind on Stem - 0.0 psf
Total Bearing Load = 1,805 Ibs ... resultant ecc. - 8.54 in -
Soil Pressure Q Toe = 2,079 psf OK
Soil Pressure Q Heel = 0 psf OK
Soil Pressure Less Than Allowable
Allowable = 2,500 psf
ACI Factored Q Toe = 2,604 psf
Footing Shear Q Toe = 5.3 psi OK
Footing Shear @ Heel = 5.5 psi OK Allowable - - 93.1 psi
1.53 OK Overturning -
Sliding - 1.51 OK - Sliding Calcs (Vertical Component Used)
Lateral Sliding Force = 1,067.8 Ibs
less 100% Passive Force= - 1,066.7 Ibs
less 100% Friction Force= - 541.4 Ibs
Added Force Req'd = 0.0 Ibs OK .... for 1.5 : 1 Stability = 0.0 Ibs OK
ACI Factored Q Heel = 0 psf
- Wall Stability Ratios
-
-
Toe Heel - -- Factored Pressure = 2,604 0 psf Mu' : Upward = 1,715 0 ff# Mu' : Downward - 300 225 R-# Mu: Design = 1,414 225 ft-#
Actual I-Way Shear = 5.35 5.46 psi
Allow I-Way Shear = 93.11 93.11 psi
Toe Reinforcing = # 5 Q 12.75 in Heel Reinforcing = # 5 Q 18.00 in Key Reinforcing = None Spec'd
-
.. . . . .. ........ ..... . ..... ........ . ........ .......... .... .. i
Equivalent Fluid Pressure Method Min. As % = 0.0014
1.33ft 1.25 Passive Pressure = 300.0 Total Footing Width = 2.58 Water height over heel = 3.0 ft
FootingllSoil Friction = 0.300
- Heel Active Pressure = 35.0 Toe Width - Toe Active Pressure = 0.0 Heel Width - -
- - 15.00 in - 9.00 in
11 .OO in
0.00 R
Footing Thickness
Key Width
Key Distance from Toe =
Cover@ Top = 3.00 in Q Btm.= 3.00 in
- - Soil height to ignore Key Depth - for passive pressure = 0.00 in
Top Stem
Stem OK Design height ft= 0.00
Wall Material Above "Ht" = Concrete
Thickness = 10.00 Rebar Size = #5
Rebar Spacing = 16.00
Rebar Placed at = Center
fb/FB + fa/Fa - 0.314
Total Force @ Section Ibs = 1,069.2
Moment.. ..Actual ft#= 1,565.1
Moment.. . ..Allowable = 4,992.1
Shear. .. ..Actual psi = 17.8
Shear ..... Allowable psi = 93.1
Bar Develop ABOVE Ht. in = 21 36
Bar LaplHook BELOW Ht. in = 6.00
Wall Weight = 120.8
Design Data -
Rebar Depth 'd' in = 5.00
fm psi =
Fs psi =
Solid Grouting - -
Special Inspection -
Modular Ratio 'n' Short Term Factor Equiv. Solid Thick. -
Masonry Block Type =
fc psi= 3.000.0
FY psi = 60,000.0
Toe: Heel: Key:
Masonry Data
- - - - - -
Concrete Data
Other Acceptable Sizes b Spacings
Title : Job # yo@ Dsgnr: ’’ Date: 11:55AM, 4 FEB 05 Description :
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Page 2 Rev 560100 L Can ti levered Rets in g g u \yshao\shared\engineering\commercial\legola 1 User KW-0602938, Ver 5 6 1.25-Oct-2002 (c)1983-2002 ENERCALC Engineering Software
Description 5ft Conc Retaining Wall btwn ramps elev 3AIS301
Item
..... OVERTURNING ..... Force Distance Moment
Ibs ft ft#
..... RESISTING ..... Force Distance Moment Ibs ft ft# - Heel Active Pressure = 1,067.8 1.84 1,968.5 Soil Over Heel - 229.2 2.37 543.5
Toe Active Pressure = Sloped Soil Over Heel =
Surcharge Over Toe = Surcharge Over Heel =
Adjacent Footing Load = Adjacent Footing Load =
Added Lateral Load = Axial Dead Load on Stem = 0.00
Load @ Stem Above Soil = Soil Over Toe - 73.2 0.67 48.6
SeismicLoad - - Surcharge Over Toe =
Stem Weight(s) - - 725.0 1.75 1,266.3
Resistingloverturning Ratio = 1.53 Footing Weight - 483.7 1.29 624.0
Key Weight - 103.1 0.38 38.7 - 190.5 2.58 491.5
-
Total = 1,067.8 O.T.M. = 1,968.5 Earth @ Stem Transitions= - - - Vertical Loads used for Soil Pressure = 1,804.7 Ibs Vert. Component
Vertical component of active pressure used for soil pressure Total = 1,804.7 Ibs R.M.= 3,012.7
1 O.in Conc
61
#5@12.75in
@Toe
Designer select
#5@18.in all horiz. reinf.
@ Heel ,-1 1 '-4"
2'-7"
D
3-0"
i
1 '-3"
3"
11"'
Dunn Savoie Inc.
Structural Engineers
908 S. Cleveland Street
Title : Job # yo@
Date: 11 :55AM. 4 FEB 05 Dsgnr: Description :
4
- Oceanside, CA 92054 Scope : Tel: (760) 966-6355
Page 1 Rev 560100 Us= KW-0602938. Ver 5.6.1.25-0~1-2002 can tilevered Rets ng Wall g u:\yshao\shared\engineering!cornrnercial\legola - (c)l983-2002 ENERCALC Engineering Software
Description 7ft Concrete Retaining Wall at back elev 3B/S301
Retained Height = 7.00ft
Wall height above soil = 1 .OO ft
Slope Behind Wall = 0.00 : 1
Height of Soil over Toe = 6.00 in
Soil Density = 11o.oopcf
- Wind on Stem - 0.0 psf
I Soil Data u I Footina Strenaths & Dimensions b
Allow Soil Bearing = 2,500.0 psf
Equivalent Fluid Pressure Method
Heel Active Pressure = 35.0
Toe Active Pressure = 0.0 Passive Pressure = 300.0 Water height over heel = 3.0 ft
FootingllSoil Friction = 0.300
Soil height to ignore for passive pressure = 0.00 in
fc = 3,000 psi
Min. As %
Toe Width Heel Width Total Footing Width
Footing Thickness
Key Width
Key Depth
Key Distance from Toe
Fy = 60,OOOpsi = 0.0014
1.75 R - 1.50 - 3.25- - 15.00 in - - 9.00 in - 18.00 in - 0.00 ft
- - - -
-
- -
Cover Q Top = ' 3.00 in @ Btm.= 3.00 in
lop Stem
Stem OK
... resultant ecc. = 10.62 in Wall Material Above "Ht" = Concrete
Total Bearing Load = 2,686 Ibs Design height ft= 0.00
Soil Pressure Q Toe = 2,419 psf OK
Soil Pressure Q Heel = 0 psf OK
Soil Pressure Less Than Allowable
Allowable = 2,500 psf
ACI Factored Q Toe = 2,969 psf
Footing Shear Q Toe = 12.0 psi OK
Footing Shear Q Heel = 10.6 psi OK
Overturning Sliding - 1.52 OK
ACI Factored Q Heel = 0 psf
93.1 psi
1.52 OK
- Allowable -
- - Wall Stability Ratios -
Sliding Calcs (Vertical Component Used)
Lateral Sliding Force = 1,575.3 Ibs less 100% Passive Force= - 1,584.4 Ibs
less 100% Friction Force= - 805.9 Ibs
Added Force Req'd = 0.0 Ibs OK .... for 1.5 : 1 Stability = 0.0 Ibs OK
Toe Heel Factored Pressure = 2,969 0 psf Mu' : Upward = 3,352 0 ft-# Mu' : Downward = 520 674 ft# Mu: Design = 2,832 674 R#
Actual I-Way Shear = 12.05 10.57 psi
Allow I-Way Shear = 93.11 93.11 psi
Toe Reinforcing = # 5 @ 12.75 in Heel Reinforcing = # 5 Q 18.00 in Key Reinforcing = None Spec'd
Thickness = 10.00
Rebar Size = #5
Rebar Spacing = 16.00
Rebar Placed at = Center
fbFB + falFa - 0.747
Total Force Q Section Ibs = 1,783.2
Moment .... Actual ft#= 3,726.9
Moment ..... Allowable = 4,992.1
Shear ..... Actual psi = 29.7
Shear ..... Allowable psi = 93.1
Bar Develop ABOVE HI. in = 21.36
Bar LaplHook BELOW Ht. in = 7.07
Rebar Depth 'd' in = 5.00
fm psi =
Fs psi =
Solid Grouting Special Inspection -
Modular Ratio 'n' -
Short Term Factor
Equiv. Solid Thick. Masonry Block Type =
Pc psi= 3.000.0
FY psi = 60,000.0
Toe: Heel: Key:
Design Data -
Wall Weight = 120.8
Masonry Data
- - - - - - - -
Concrete Data
Other Acceptable Sizes EL Spacings
Dunn Savoie Inc. Title : Job # yo@ Structural Engineers Dsgnr: 9 6 Date: I 1:55AM, 4 FEB 05
908 S. Cleveland Street Description :
Oceanside, CA 92054
Tel: (760) 966-6355 Scope : .~
Page 2 Rev: 560100 User: KW-0602938, Ver 5.6.1.25-Od-2002 (c)1983-2002 ENERCALC Engineering Soflware Retaining Wall Design u:\yshao\shared\engineering\commercialUegola 1
Description 7ft Concrete Retaining Wall at back elev 3B/S301
Item
..... OVERTURNING ..... Force Distance Moment Ibs R R#
Heel Active Pressure = 1,575.3 2.42 3,819.8
Toe Active Pressure =
Surcharge Over Toe =
Adjacent Footing Load =
Added Lateral Load =
Load @ Stem Above Soil =
SeismicLoad - -
Total = 1,575.3 O.T.M. = 3,819.8
Resistingloverturning Ratio = 1.52
Vertical Loads used for Soil Pressure = 2,686.3 Ibs
Vertical component of active pressure used for soil pressure
..... RESISTING ..... Force Distance Moment Ibs ft n-#
Soil Over Heel
Sloped Soil Over Heel =
Surcharge Over Heel =
Adjacent Footing Load =
Axial Dead Load on Stem =
Soil Over Toe
Surcharge Over Toe =
Stem Weight(s) - -
Earth Q Stem Transitions=
Footing Weight - -
Key Weight
Vert. Component - -
Total =
- -
-
- -
-
51 3.3
96.3
966.7
609.4
168.7
332.0
2,686.3 Ibs
2.92 1,497.2
0.00
0.88 84.2
2.17 2.094.4
1.63 990.2
0.38 63.3
3.25 1,078.9
R.M.= 5,808.3
1 O.in Conc wt*
L-
#5@12.75in
@Toe
c
c
c
Designer selec
#5@18.in all horiz. rein1
@ Heel
9" t,
GEOTECHNICAL UPDATE REPORT,
PROPOSED KNIGHT’S TOURNAMENT AITRACTION
CARLSBAD, CALIFORNIA
LEGOLAND THEME PARK,
Prepared For
LEGOLAND CALIFORNIA
One Leg0 Drive
Ca r Is ba d I Ca I if0 r n i a 92008
Project No. 960151-022
February 7, 2005
Leighton A LElGHTON and GROIJ&&o$a/ Ass ia lnc. !-
Leighton and Associates, Inc.
A LEIGHTON GROUP COMPANY
February 7,2005
Project No. 9601 5 1-022
To : Legoland California
One Leg0 Drive
Carlsbad, California 92008
Attention: Mr. Jim Fend
Subject : Gcotechnical Update Report, Proposed Knight’s Tournament Attraction, Legoland
Theme Park, Carlsbad, California
Introduction
In accordance with your request, this report has been prepared to provide an updated summary of
the geotechnical conditions relative to the proposed Knight’s Tournament Attraction in the
Legoland Theine Park in Carlsbad, California (Figure 1). The recommendations provided herein
are based on our review of the as-graded conditions in the area of proposed attraction. In
preparation of this update letter, we have reviewed the available geotechnical reports relative to the
Legoland site (Appendix A) and made a site visit to observe the current site conditions.
Site DeveloDment
The Knight’s Tournament Attraction is located in the east portion of the Legoland Theme Park in
the City of Carlsbad. California (Figure 1). The attraction site is in the north portion of the East
Expansion Area and overlaps the footprint of the Spell Breaker (Bat Flyer) roller coaster that has
been removed from the park. We understand that the planned work will include demolition of
some of the remaining improvements left from the previous ride. The Knight’s Tournament
attraction will consist of access ramps, queuing area walkways, coaster station platform, artificial
ponds and retaining wall to create the access ramps and coaster station platform. Based on
discussions with the structural engineer, the foundation system for the ride is planned to be an
isolated pad or mat type foundation.
3934 Murphy Canyon Road, Suite B205r San Diego, CA92123-4425
858 - 292.8030 Fax 858.292.077 1 w.leightongeo.com
I
LEGOLAND California
Knights Quest Attraction
Carl sbad, Cal ifornra
Project No.
LO CAT IO N 980151422 .iJ
SITE
Date
MAP February 2005 FgureNO 1
960 15 1-022
Conclusions
The subject site was originally graded as part of the Legoland Theme Park development under the
observation and testing of Leighton and Associates (Leighton, 1998). Subsequent to the initial
mass grading, a roller coaster attraction was constructed at the site of the proposed Knight’s
Tournament attraction (Leighton, 2000). Based on our review, we have prepared an updated
Geotechnical Map. Based on our review of pertinent geologic literature and maps, the site area is
underlain by Quaternary Terrace Deposits which are underlain by the Tertiary Santiago Formation.
Undocumented Fill and Documented Artificial Fill were also encountered on the site. A brief
description of the geologic units encountered on the site is presented below. The approximate
locations of the geologic contacts between units are mapped on the Geotechnical Map (Plate 1).
Documented Fill (Map Symbol - Af)
Documented fill placed during previous grading under the observation and testing of Leighton
is present in the site area (Plate 1). These fill soils were derived fiom onsite or adjacent sites
and as encountered during grading, generally consist of orange-brown to light gray, slightly
clayey to silty, fine to medium grained sand. Based on the mapped locations of these fills, we
expect they will be generally shallow at the proposed foundation area.
Undocumented Fill (Not Mapped)
Backfill within existing utility trenches that transect the site are considered undocumented, as
Leighton was not on site to observe or test the previously placed backfill. As such, these soils
are not considered suitable for stipport of proposed improvements and may require removal
and reconipaction where encountered beneath planned improvements.
Quaternary Terrace Deposits (Map Symbol - Ot)
Quaternary Terrace Deposits stratigraphically overlie the Tertiary Santiago Formation in most
areas of the site. As encountered during previous grading, these deposits generally consisted
of orange to reddish brown, damp to moist, medium dense to dense, silty fine- to medium-
grained sand. These soils are expected to generally exhibit very low to low expansion
potential and favorable engineering properties for foiuidation support. The upper 1 to 2 feet of
these materials is expected to be disturbed and will require removal and recompaction.
Tertiarv Santiago Formation (Map Symbol - Ts)
The bedrock unit underlying the entire site is the Tertiary Santiago Formation. As encountered
during grading operations, the unit consisted of massive to poorly bedded sandstone with
interbedded clayey siltstone and silty claystone. The sandstone encountered consisted
primarily of light gray to light brown, and light yellow-brown, moist, dense, silty fine- to
occasionally medium-grained sandstone. The sandstone was generally friable, slightly
micaceous and massive. The siltstone consisted of medium brown and olive brown, moist,
stiff, clayey siltstones that were fissile to indistinctly bedded and contained calcium carbonate,
-3- Leig hton
960 15 1-022
manganese oxide and iron oxide staining. The claystone was typically gray to brown, moist,
stiff to hard, fine-grained, sandy to silty claystone that was nioderately sheared.
Based on the current site conditions., our review of the referenced geotechnical reports,
preliminary site plans, and our experience during development of the Legoland project, it is our
professional opinion that the proposed development is feasible from a geotechnical perspective
provided the recommendations of this report are incorporated into the design and construction of
the project.
Recommendations
1. Earthwork
We anticipate that earthwork on the site will consist of demolition and removal of the existing
improvements in preparation for construction of the proposed Knight's Tournament attraction
and associated improvements. We recommend that earthwork on the site be performed in
accordance with the following recommendations, the City of Carlsbad grading requirements,
and the General Earthwork and Grading Specifications of Rough-Grading included in
Appendix B. In case of conflict, the follotving recommendations shall supersede those in
Appendix B.
Site PreparatioQ
We anticipate demolition operation will disturb the subsurface soils. We reconunend that in
the areas of proposed development the subsurface soils be removed to a depth of 6 to 12
inches, moisture-conditioned to optimum or above moisture content and compacted to a
minimum 90 percent relative compaction (based on ASTM Test Method D1557).
If additional grading, such as fill placement, is planned on'the site, the areas to receive
structural fill or engineered structures should be cleared of subsurface obstructions,
potentially compressible material (such as loose landscaping soils) and stripped of
vegetation prior to grading. Vegetation and debris should be removed and properly disposed
of offsite. Holes resulting form removal of buried obstructions that extend below finish site
grades should be replaced with suitable'compacted fill material. Areas to receive fill and/or
other surface improvements should be scarified to a minimum depth of 12 inches, brought to
optimum or above optimum moisture condition, and recompacted to at least 90 percent
relative compaction (based on ASTM Test Method D1557).
-4- Leig hton
. 1
960 15 1-022
Excavations
Excavations of the on-site materials may generally be accomplished with conventional
heavy-duty earthwork equipment. It is not anticipated that blasting will be required, or that
significant quantities of oversized rock (i.e., rock with maximum dimensions greater than 6
inches) will be generated during future grading. However, if oversized rock is encountered,
it should be hauled offsite, placed in non-structural or landscape areas.
Excavation of utility trenches should be performed in accordance with the project plans,
specifications and all applicable OSHA requirements. The contractor should be responsible
for providing the "competent person" required by OSHA standards. Contractors should be
advised that sandy soils and/or adversely oriented bedrock structures can make excavations
particularly unsafe if not all safety precautions are taken. Spoil piles due to the excavation
and construction equipment should be kept away fiom and on the down slope side of the
trench.
m Fill Placement and Compaction
The on-site soils are generally suitable for use as compacted fill provided they are free of
organic material, debris, and rock fragments larger than 6 inches in maximum dimension.
All fill soils should be brought to optimum or above optimum moisture conditions and
compacted in uniform lifts to at least 90 percent relative compaction based on the laboratory
maximum dry density (ASTM Test Method DI 557). The optimum lift thickness required to
produce a uniformly compacted fill will depend on the type and size of compaction
equipment uscd. In general, fill should be placed in lifts not exceeding 4 to 8 inches in
compacted thickness. Placement and compaction of fill should be performed in general
accordance with the current City of: Carlsbad grading ordinances, sound construction
practices, and the General .Earthwork and Grading Specifications of Rough-Grading
presented in Appendix B
m Removal of Unsuitable Soils
All undocumented fill soils and surficial soils should be removed before placement of
additional fill or surficial improvements. Removals made in these areas should extend to
competent Terrace Deposits or engineered fill materials.
Throughout the site, the uppermost 1 to 2 feet of the surificial soils are expected to be
disturbed, desiccated or loose and will require removal and recompaction. Additionally,
loose and weathered soils at the cut to fill transition should also be removed and
recompacted prior to placement of additional fills or surface improvements. Existing
backfill in utility trenches, if present, on site, are considered undocumented and should be
identified, excavated, and recompacted.
-5- Leigh ton.
960 151-022
= Transition Mitigation
From review of the site plan (Ape], 2003, shallow cuts and fills are anticipated to
fine grade the building pad and ride footprint areas. Where transitional conditions are
present that result in greater than 10 feet of fill thickness differential, we recommend
the pad areas be overexcavated at least 1 foot below the deepest footings. All
overexcavation should laterally extend at least 5 feet beyond the limits of the
foundation and all associated settlement-sensitive structures.
2. Faulting and Seismicity
Our discussion of faults on the site is prefaced with a discussion of California legislation and
state policies concerning the classification and land-use criteria associated with faults. By
definition of the California Geological Survey, an active fault is a fault that has had surface
displacement within Holocene time (about the last 1 1,000 years). The State Geologist has
defined a potentially active fault as any fault considered active during Quaternary time (last
1,600,000 years) but that has not been proven to be active or inactive. This definition is used in
delineating Fault-Rupture Hazard Zones as mandated by the Alquist-Priolo Earthquake Fault
Zoning Act of 1972 and as most recently revised in 1997. The intent of this act is to assure that
unwise urban development does not occur across the traces of active faults. B,ased on our
review of the Fault-Rupture Hazard Zones, the site is not located within any Fault-Rupture
Hazard Zone as created by the Alquist-Priolo Act (Hart, 1997).
San Diego, like the rest of southern California, is seisniically active as a result of being
located near the active margin between the North American and Pacific tectonic plates. The
principal source of seismic activity is movement along the northwest-trending regional fault
zones such as the San Andreas, San Jacinto and Elsinore Faults Zones, as well as along less
active faults such as the Rose Canyon and Newport Inglewood Fault Zones. Our review of
available geologic literature indicates that there are no known major active faults on or in the
immediate vicinity of the site. The nearest known active regional fault is the Rose Canyon
Fault Zone located approximately 4.7 miles west of the site.
200 1 California Building Code Seismic Criteria
The site is Located within Seismic Zone 4 (per 2001 CBC, Figure 16-2). The Rose
Canyon Fault Zone is considered a Type B seismic source according to Table 16-U of the
2001 CBC. Based on our engineering geologic assessment, the site is considered to have
a type Sc soil profile (per 2001 CBC Table 16-5). The near source factors N, equal to 1.0
and N, equal to 1.1 are considered appropriate based on the seismic setting applicable to
the site (per 200 1 CBC, Tables 16-S and 16-T).
Secondary effects that can be associated with severe ground shaking following a
relatively large earthquake include shallow ground rupture, soil liquefaction and dynamic
-6- Leig hton
96015 1-022
settlement, seiches and tsunamis. These secondary effects of seismic shaking are
discussed in the following sections.
= Shallow Ground Rupture
Ground rupture because of active faulting is not believed to present a significant hazard
to the site. Cracking due to shaking from distant seismic events is not considered a
significant hazard either, although it is a possibility at any site in Southern California. . Liquefaction and Dynamic Settlement
Liquefaction and dynamic settlement of soils can be caused by strong vibratory motion
due to earthquakes. Both research and historical data indicate that loose, saturated,
granular soils are susceptible to liquefaction and dynamic settlement while the stability of
stiff silty clays and clays and dense sands are not adversely affected by vibratory motion.
Liquefaction is typified by a total loss of shear strength in the affected soil layer, thereby
causing the soil to flow as a liquid. This effect may be manifested by excessive
settlements and sand boils at the ground surface.
The surficial improvements on the site are underlain by bedrock materials of Quaternary
Terrace deposits and compacted fill, which is not generally considered liquefiable due to
physical characteristics and unsaturated condition.
= Tsunamis and Seiches
Based on the distance between the site arid large, open bodies of water, and the elevation
of the site with respect to sea Ievel, the possibility of seiches and/or tsunamis is
considered very low.
3. Foundation Design Considerations
The proposed foundation and slab of the proposed building expansion should be designed in
accordance with structural considerations provided by the structural engineer. All foundations
may be designed for low expansive soils unless conditions exposed during grading are found to
be otherwise. If import material is utilized as fill on the site, the import material should consist
of very low or low-expansive sandy material (with an expansion index less than 50 per CBC
18-I-E).
= Foundation Design
The proposed structures may be founded on shallow isolated and continuous footings.
Isolated square or circular footings should have a minimum dimension of 24 inches and
the continuous footings should have a minimuin width of 15 inches. The minimum
-7- Leighton
96015 1-022
embedment depth of 18 inches below lowest adjacent grade should be used for all
footings. At these depths, footings founded in competent formational or compacted fill
materials may be designed for a maximum allowable bearing pressure of 2,500 pounds
per square foot.
All continuous footings should be reinforced with a minimum of four No. 4 steel
reinforcing bar, two at the top and two at the bottom. Actual steel reinforcing should be
designed by the structural engineer. Footing excavations should be kept moist from the
time they are excavated until foundation concrete is placed. Water should not be allowed
to pond in the bottom of the excavations. Areas that become water damaged should be
overexcavated to a firm base.
Maximum anticipated total and differential settlement of square/circular footings and
continuous footings, constructed in accordance with the above-recommendations, are
estimated to be less than ?4 inch.
Resistance to lateral loads can be provided by friction acting at the base of foundations
and by passive earth pressure. A coefficient of friction of 0.35 may be assumed with
dead-load forces. An allowable passive lateral earth pressure of 300 psf per foot of depth
up to a maximum of 3,000 psf may be used for sides of footings poured against
undisturbed natural materials or properly compacted fill. This allowable passive pressure
is applicable for level (ground slope equal to or flatter than 5:1, horizonta!:vertical)
conditions only.
Bearing values indicated above are for total dead load and frequently applied live loads.
The above vertical bearing niay be increased by 1/3 for short durations of loading which
will include the effect. of wind or seismic forces.
Floor Slab Design
The slab-on-grade should be at least 4 inches thick and be reinforced with No. 3 rebars 18
inches on center each way (minimum), placed at midheight in the slab. Slabs with moisture
sensitive floor coverings should be undertaken by a 2-inch layer of clean sand. The sand
should be additionally underlain by a visqueen moisture barrier underlain by an additional 2
inches of sand. Sand should possess a sand equivalent of 30 or greater. We recommend
control joints be provided across the slab at appropriate intenFals as designed by the project
architect.
Prior to placement of the vapor barrier, the upper 12 inches of slab subgrade should be
moisture conditioned to a moisture content at or above the laboratory determined optimum.
The potential for slab cracking may be further reduced by careful control of waterkement
ratios. The contractor should take appropriate curing precautions during the pouring of
concrete in hot weather to minimize cracking of slabs. We recommend that a slipsheet (or
-8- 4
Leig hton
960 15 1-022
equivalent) be utilized if grouted tile, marble tile, or other crack-sensitive floor covering is
planned directly on concrete slabs. All slabs should be designed in accordance with
structural considerations. If heavy vehicle or equipment loading is proposed for the slabs,
grearer thickness and increased reinforcing may be required. A soil modulus of 150 pounds
per cubic inch is recommended for design of mat foundations.
9 Footing Setback
We recommend 8 minimum horizontal setback distance from the face of slopes for all
structural footings and settlement-sensitive structures. This distance is measured from the
outside edge of the footing, horizontally to the slope face (or to the face of a retaining wall)
and should be a minimum of 10 feet. We should note that the soils within the structural
setback area possess poor lateral stability, and improvements (such as retaining walls,
sidewalks, fences, pools, pavement, underground utilities, etc.) constructed within this
setback area may be subject to lateral movement and/or differential settlement.
4. Lateral Earth Pressures and Resistance
Embedded structural walls should be designed for lateral earth pressures exerted on them.
The magnitude of these pressures depends on the amount of deformation that the wall can
yield under load. If the wall can yield enough to mobilize the full shear strength of the soil, it
can be designed for "active" pressure. If the wall cannot yield under the applied load, the
shear strength of the soil cannot be mobilized and the earth pressure will be higher. Such wall
should be designed for "at rest" conditions. If a structure moves toward the soils, the resulting
resistance development by the soil is the "passive" resistance.
For design purposes, the recommended equivalent fluid pressure for each case for walls
founded above the static ground water table and backfilled with very low to low expansion
potential soils is provided on Table 1. Determination of which condition, active or at-rest, is
appropriate for design will depend on the flexibility of the wall. The effect of any surcharge
(dead or live load) should be added to the proceeding lateral earth pressures. Based on our
investigation, the sandier onsite soils may provide low to very low expansive potential
backfill material. All wall backfill soils should have an expansion potential of less than 20
(per CBC 18-I-B).
-
-9- Leig hton
960151-022
Active
At-Rest
Passive
Table 1
Lateral Earth Pressures
I I 35 55
55 85
-
300 (Maximum of 3 ksf) 150 (sloping down)
The above values assume a very low to low expansion (less than 20 per UBC 18-I-B)
potential backfill and free-draining conditions. If conditions other than these covered herein
are anticipated, the equivalent fluid pressure values should be provided on an individual-case
basis by the geotechnical engineer. A surcharge load for a restrained or unrestrained wall
resulting from automobile traffic may be assumed equivalent to a uniform lateral pressure of
75 psf that is in addition to the equivalent fluid pressures given above. All retaining wall
structures should be provided with appropriate drainage and waterproofing. Typical drainage
design is illustrated in Appendix B. As an alternative, an appro\.ed drainage board system
installed in accordance with the manufacturers' recommendations may be used. i
Wall backfill should be compacted by mechanical methods to at least 90 percent relative
compaction (based on ASTM Test Method D1557). Should structures or driveway areas be
located adjacent to retaining walls, the backfill should be compacted to at least 95 percent
relative compaction'(based on ASTM Test Method D 1557) and this office should provide
additional surcharge recommendations. Surcharges from adjacent structures, traffic, forklifts
or other loads adjacent to retaining walls should be considered in the design.
Wall footings design and setbacks should be performed in accordance with the previous
foundation design recommendations and reinforced in accordance with structural
considerations. Soil resistance developed against lateral structural movement can be obtained
from the passive pressure value provided above. Further: for sliding resistance, a friction
coefficient of 0.35 map be used at the concrete and soil interface. These values may be
increased by one-third when considering loads of short duration including wind or seismic
loads. The total resistance may be taken as the sum of the frictional and passive resistance
provided that the passive portion does not exceed two-thirds of the total resistance.
-10- Leighton
960 15 1-022
5.
6.
7.
Geochemical Considerations
Concrete in direct contact with soil or water that contains a high concentration of soluble
sulfates can be s:ibject to chemical deterioration commonly known as “sulfate attack.”
Results of previous testing indicated a negligible soluble sulfate content. Uniform Building
Code Table 19-A-4 provides minimum concrete design requirements based on sulfate
exposure conditions. Although test results indicate negligible exposure according to Table
19-A-4, we recommend moderate exposure be assumed. Additional testing of the finish
grade soils should be performed.
The site soils are believed to present a moderate potential for corrosion of buried uncoated
metal conduits and pipes. Further analyses by a corrosion engineer is recommended where
buried metal is being considered.
Concrete Flatwork
In order to reduce the potential for differential- movement or cracking of driveways,
sidewalks, patios, other concrete flatwork, 6x6-6/6 welded-wire mesh reinforcement is
suggested along with keeping pad grade soils a.t an elevated moisture content.
Additional control can be obtained by providing thickened edges and 4 or 6 inches of
granular base or clean sand. respectively, below the flatwork. Reinforcement should be
placed midheight in concrete. Even though the slabs are reinforced, some expansive soil-
related movement (Le., both horizontal to vertical differential movement, etc.) should be
anticipated due to the nature of the expansive soils. A uniform moisture content on the site
should be maintained throughout the year to reduce differential heave of flatwork such as
sidewalks, flatwork, etc.
Control of Surface Water and Drainage Control
Positive drainage of surface water away from structures is very important. No water should be
allowed to pond adjacent to buildings. Positive drainage may be accomplished by providing
drainage away from buildings at a gradient of at least 2 percent for a distance of at least 5 feet,
and further maintained by a swale or drainage path at a gradient of at least 1 percent. Eave
gutters, with properly connected downspouts to appropriate outlets, are recommended to
reduce water infiltration into the subgrade soils.
Planters with open bottoms adjacent to buildings should be avoided, if possible. Planters
should not be design adjacent to buildings unless provisions for drainage, such as catch basins
and pipe drains, are made. Over watering should be avoided.
-11- Leighton
960 151-022
8. Construction Observation and Testing and Plan Review
Construction observation and testing should be perfomied by the geotechnical consultant
during future grading, excavations and foundation or retaining wall construction at the site.
Site-specific recommendations should be provided by a qualified geotechnical consultant and
should be based on actual site conditions. Grading and foundation design plans should also be
reviewed by the geotechnical consultant prior to construction and a final report of geotechnical
services should be prepared to document geotechnical services upon completion of site
development .
9. Limitations
The conclusions and recommendations in this report are based in part upon data that were
obtained from a limited number of observations and site visits. Such information is by
necessity incomplete. The nature of many sites is such that differing geotechnical or
geological conditions can occur within small distances and under varying climatic
conditions. Changes in subsurface conditions can and do occur over time. Therefore, the
findings, conclusions, and recommendations presented in this report can be relied upon only
if Leighton has the opportunity to observe the subsurface conditions during grading and
construction of the project, in order to confirm that our preliminary findings are
representative for the site.
If you have any questions regarding our letter, please contact this office. We appreciate this
opportunity to be of service.
Respectfdly submitted,
Director of Engineering
Attachments: Figure 1 - Site Lo
Plate 1 - Geotechnical Map - Rear of text
Appendix A - References
Appendix B - General Earthwork and Grading Specifications for Rough Grading
Distribution: (2) Addressee
(4) Collaborative West, Attention: Richard Ape1
(1) Dum Savoie, Inc., Attention: Rhett Savoie
-12- Leighton
960151-022
APPENDIX A
-- References
California Building and Safety Commission (CBSC), 200 I, California Building Code.
California Division of Mines and Geology (CDMG), 1998, Maps of Known Active Fault Near-
Source Zones in California and Adjacent Portions of Nevada, February 1998.
Hart, E. W., 1997, Fault Rupture Hazard Zones in California, Alquist-Priolo Special Studies
Zones Act of 1972 with Index to Special Study Zone Maps, Department of Conservation,
Division of Mines and Geology, Special Publication 42.
Leighton and Associates, Inc., 1995, Preliminary Geotechnical Investigation, Leg0 Family Park
and Pointe Resorts, Lots 17 and 18 of the Carlsbad Ranch, Carlsbad, California, Project
No. 950294-00 1, dated October 5, 1995.
, 1996, Supplemental Geotechnical Investigation, Leg0 Family Park, Carlsbad Ranch,
Carlsbad, California, Project No. 9601 5 1-00 1 , dated July 23, 1996.
, 1998, Final As-Graded Report of Rough Grading, Leg0 Family Park, Carlsbad,
California, Project No. 9601 5 1-003, dated February 10, 1998.
-, 1999, Update Geotechnical Report, Proposed East Expansion Area, Legoland
Theme Park, Carlsbad, California, Project No. 960 15 1-01 0, dated December 10, 1999.
___- , 2000, As-Graded Geotechnical Review and Plan Review for Proposed Bat Flyer
Improvements in Legoland Theme Park, Carlsbad, California, Project No. 9601 5 1-0 10,
dated May 26,2000.
, 2001% As-Graded Report of Rough and Fine Grading, East Expansion Area,
Legoland California, Carlsbad, California, Project No. 9601 5 1-1 5, dated February 20,
200 1.
, 2001b, Summary Report of Post Grading Compaction Testing, East Expansion
Area, Legoland Theme Park, Carlsbad, California, Project No. 960 15 1-0 15, dated
October 1 1 , 200 1.
A- 1
Leighton and .4ssociates, Inc.
GENERAL EARTHWORK AND GR.~DINGSPECII;ICATIONS
Page 1 of 6
LEIGHTON AKD ASSOCIATES, INC.
GENERAL EARTHWORK AND GRADING SPECIFICATIONSFOR ROUGH GRADING
1.0 General
1.1 mt: These General Earthwork and Grading Specifications are for the grading and
earthwork shown on the approved grading plan(s) and/or indicated in the geotechnical
report(s). These Specifications are a part of the recommendations contained in the
geotechnical report(s). In case of conflict, the specific recommendations in the
geotechnical report shall supersede these more general Specifications. Observations of the
earthwork by the project Geotechnical Consultant during the course of grading may result
in new or revised recornmendations that could supersede these specifications or the
recoin m end at ions in the geotec hn i ca I report( s).
1.2 The Geotechnical Consultant of Record: Prior to coinrneiicement of work, the owner shall
employ the Geotechnical Consultaiit of Record (Geotechnical Consultant). The
Geotechnical Consultants shall be responsible for reviewing the approved geotechnical-
report(s) and accepting the adequacy of the preliminary geotechnical findings, conclusions,
and recommendations prior to the coininenceinent of the grading.
Prior to commencement of grading the Geotechnical Consultant shall review the "work
plan" prepared by the Earthwork Contractor (Contractor) and schedule sufficient personnel
to perform the appropriate level of observation, mapping, and compaction testing.
During the grading and earthwork operations, the Geotechnical Consultant shall observe,
map, and docuincnt the subsurface exposures to verify the geotechnical design
assumptions. It the observed conditions are round to be signiiicantly different than the
interpreted assumptions during the design phase, the Geotechnical Consultant shall inform
the owner, recommend appropriate changes in design to accommodate the observed
conditions, and noti@ the review agency where required. Subsurface areas to be
geotechnically observed. mapped, elevations recorded, and/or tested include natural ground
after it has been cleared for receiving fill but before fill is placed. bottoms of all "remedial
removal" areas. all key bottoms, and benches made on sloping ground to receive fill.
The Geotechnical Consultant shall observe the moisture-conditioningand processingof the
subgrade and fill materials and perform relative compaction testing of fill to determine the
attained level of compaction. The Geotechnical Consultant shall provide the test results to
the owner and the Contractoron a routine and frequent basis.
3030 1094
Leighton and Associates,Inc.
GENERAL EARTHWORK AND GRADING SPECIFICATIONS
Page 2 of 6
1.3 The Earthwork Contractor: The Earthnork contractor (Coiitracfor) shall bc qualified,
experienced, and knowledgeable io earthwork logistics, preparation arid processing of
ground to receive fill, aioisture-conditioningarid processing of fill. and compacting fill.
Thc Contractor shall review and accept the plans, geotecliiiical report(s), and the
Specifications prior to commencement of grading. The Coiitractor shall be solely
responsible for performing the grading in accordance with the phis and specifications.
The Contractor shall prepare and submit to the owner and the Geotechnical Consultant a
work plan that indicates the sequence of earthwork grading, the number of "spreads" of
work and the estimated quantities of daily earthwork contemplated for the site prior to
commencement of grading. The Contractor shall inform the owner and the Geotechnical
Consultant of changes in work schedules and updates to the work plan at least 24 hours in
advance of such changes so that appropriate observations and tests can be planned and
accomplished. The Contractor shall not assume that the Geoteclinical Consultant is aware
of all grading operations.
The Contractor shall have the sole responsibility to provide adequate equipment and
methods to accomplish the earthwork in accordance with the applicable grading codes and
agency ordinances, these Specifications, and the recomnieiidatioils in the approved
geotechnical report(s) and grading plan(s). If, in the opinion of the Geotechnical
Consultant, unsatisfactory conditions, such as unsuitable soil, improper moisture condition,
inadequatecompaction, insufficient buttress key size, adverse weather, etc., are resulting in
a yuaiiiy ol" WWK iess iiiaii rcquiraci in ciiesc speciiicaiiuiia, iiic Gruicc;iuiicai Cuiiauiiiuii
shall reject the work and may recommend to the owner that construction be stopped until
the conditions are rectified.
2.0 Preparation of Areas to be Filled
2.1 Llearing and Grubbing: vegetation, such as brush, grass, rooIs. anti other deieterious
material shall be sufficiently removed and properly disposed of in a method acceptable to
the owner, governing agencies, and the Geotechnical Consultant.
The Geoteclinical Consultant shall evaluate the extent of these removals depending on
specific site conditions. Earth fill material shall not contain more than I percent of organic
materials (by volume). No fill lift shall contain mor-e than 5 percent of organic matter.
Nesting of the organic materials shall not be allowed.
If potentially hazardous materials are encountered, the Contractor shall stop work in the
affected area, and a hazardous material specialist shall be informed immediately for proper
evaluation and handling of these materials prior to continuing to work in that area.
As presently defined by the State of California, most refined petroleum products (gasoline,
diesel fuel, motor oil, grease, coolant, etc.) have chemical constituents that are considered
to be hazardous waste, As such, the indiscriminate dumping or spillage of these fluids
onto the ground may constitute a misdemeanor, punishable by fines and/or imprisonment,
and shall not be allowed.
3030.1094
Leighton and Associates, Inc.
GENERALEARTHWORK AND GRADING SPECIFICATlONS
Page 3 of 6
2.2 Processio~: Existing ground that has been declared satisfactory for support of fill by the
Geotechnical Consultant shall be scarified to a minimum depth of 6 inclies. Existing
ground that is not satisfactoqshall be overexcavated as specified in the following section.
Scarification shall continue until soils are broken down and free of large clay lumps or
clods and the working surface is reasonably uniform, flat, and free of uneven features that
would inhibit uniform compaction.
2.3 Overexcavah: In addition to removals and overexcavations recommended in the
approved geotechnical report(s) and the grading plan, soft, loose, dry, saturated, spongy,
organic-rich, highly fractured or otherwise unsuitable ground shall be overexcavated to
competent ground as evaluated by the Geotechnical Consultant during grading.
2.4 Benching: Where fills are to be placed on ground with slopes steeper than 5: 1 (horizontal
to vertical units), the ground shall be stepped or benched. Please see the Standard Details
for a graphic illustration. The lowest bench or key shall be a minimum of 15 feet wide and
at least 2 feet deep, into competent material as evaluated by the Geotechnical Consultant.
Other benches shall be excavated a minimum height of 4 feet into competent material or as
othenvise recommended by the Geotechnical Consultant. Fill placcd on ground sloping
flatter than 5: I shall also be bcnched or othenvise overexcavated to provide a flat subgrade
for the fill.
2.5 EvaiuaLionii\cceprarlce or’ Fiii Areas: Aii areas LO receive iiii, iiidutiijig itiiiuini ‘III~
processed areas, key bottoms, and benches, shall be observed, mapped, elevations
recorded. and/or tested prior to being accepted by the Geotechnical Consultant as suitable
to receive fill. The Contractor shall obtain a written acceptance from the Geotechnical
Consultant prior to till placement. .A licensed surveyor shall provide the survey control for
determining elevationsof processed areas. keys, and benches.
3.0 Fill Material
3.1 General: Material to be used as fill shall be essentially free of organic matter and other
deleterious substances evaluated and accepted by the Geotechnical Consultant prior to
placement. Soils of poor quality, such as those with unacceptable gradation: high
expansion potential, or low strength shall be placed in areas acceptable to the Geotechnical
Consultant or mixed with other soils to achieve satisfactory fill material.
3.2 Oversize: Oversize material defined as rock, or other irreduciblematerial with a maximum
dimension greater than 8 inches, shall not be buried or placed in fill unless location,
materials, and placement methods are specifically accepted by the Geotechnical
Consultant. Placement operations shalI be such that nesting of oversized material does not
occur and such that oversize material is completely surrounded by compacted or densified
fill. Oversize material shall not be placed within 10 vertical feet of finish grade or within
2 feet of future utilitiesor undergroundconstruction.
Leighton and Associates,lnc.
GENERAL EARTHWORK AND GRADINGSPECIElCATIONS
Page 1 of 6
3.3 Import: If importingof fill material is required for grading,proposed import inaterial shall
meet the requirements of Section 3. I. The potential import source shall be given to the
Geotechnical Consultant at least 48 hours (2 working days) before importing begins so that
its suitabilitycan be determined and approprintetests performed.
4.0 Fill Placementand Compaction
4.1
4.2
4.3
4.4
4.5
Fill Layers: Approved fill material shall be placed in areas prepared to receive fill (per
Section 3.0) in near-horizontal layers not exceeding 8 inches in loose thickness. The
Geotechnical Consultant may accept thicker layers if testing indicates the grading
procedures can adequately compact the thicker layers. Each layer shall be spread evenly
and mixed thoroughly to attain relative uniformity of material and moisture throughout.
Fill Moisture Conditioning: Fill soils shall be watered, dried back, blended, and/or mixed,
as necessary to attain a relatively uniform moisture content at or slightly over optimum.
Maximum density and optimum soil moistitre content tests shall be performed in
accordance with the American Society of Testing and Materials (ASTM Test Method
D1557-9 1).
Compaction of Fill: After each layer has been inoisture-conditioned, mixed, and evenly
spread, ir shaii be uiiiformiy coiripaciej LO iiw ichb ciiaii 56 pcrccirioiriiax~iiiuiii dry dciisiiy
(ASTM Test Method 01557-91). Compaction equipment shall be adequately sized and be
either specifically designed for soil compaction or of proven reliability to eaciently
achieve the specified level of compaction with uniformity.
Compaction of Fill Slopes: In addition to normal compaction procedures specified above,
compaction of slopes shall be accomplished by backrolling of slopes with sheepsfoot
rollers at increments oi j to 4 feet in iiii elevation, or by other methods proaucing
satisfactory results acceptable to the Geotechnical Consultant. Upon completion of
grading, relative compaction of the fill, out to the slope face, shall be at least 90 percent of
maximum density per ASTM Test Method D1557-91.
Compaction Testing: Field tests for moisture content and relative compaction of the fill
soils shall be perfonned by the Geotechnical Consultant. Location and frequency of tests
shall be at the Consultant's discretion based on field conditions encountered. Compaction
test locations will not necessarily be selected on a random basis. Test locations shall be
selected to verify adequacy of compaction levels in areas that are judged to be prone to
inadequate compaction(such as close to slope faces and at the fill/bedrock benches).
3030.1uw
Leightonand Associates,Inc.
GENERAL EARTHWORK AND GRADING SPECIFICATIONS
Page 5 of 6
4.6 Frequency of Compactioti Testing: Tests shall be taken at intervals not exceeding 2 feet in
vertical rise and/or I .OOO cubic yards of compacted fill soils embankment. In addition, as a
guideline, at least otic test shall be taken on slope faces for each 5,000 square feet of slope
face and/or each 10 feet of vertical height of slope. The Contractor shall assure that fill
construction is such that the testing schedule can be accomplished by the Geotechnical
Consultant. The Contractor shall stop or slow down the earthwork construction if these
minimum standards are not met.
4.7 Comuaction Test Locations: The GeotechnicalConsultant shall document the approximate
elevation and horizontal coordinates of each test location. The Contractor shall coordinate
with the project surveyor to assure that sufficient grade stakes are established so that the
Geotechnical Consultant can determine the test locations with sufficient accuracy. At a
minimum, two grade stakes within a horizontal distance of 100 feet and vertically less than
5 feet apart from potential test locations shall be provided.
5.0 Subdrain Installation
Subdrain systems shall be installed in accordance with the approved geotechnical report(s), the
grading plan, and the Standard Details. The Geotechnical Consultant may recommend additional
subdraiiis and/or changes in subdrain extent, location, grade, or material depending on conditions
encuuniared ciurirtg gtauiiig. Aii w'uciraiiis siiaii be bur veycyeci by a iarici surveyuricivii eiig;iieer Tur
line and grade after installation and prior to burial. Sufficient time should be allowed by the
Contractor for these surveys.
6.0 Excavation
bxcavations, as well as over-excavation ior remediai purposes, sllaii be evaiuatea by the
Geotechnical Consultant during grading. Remedial removal depths shown on geotechnical plans
are estimates only. The actual extent of removal shall be determined by the Geotechnical
Consultant based on the field evaluation of exposed conditions during grading. Where fill-over-cut
slopes are to be graded, the cut portion of the slope shall be made, evaluated, and accepted by the
Geotechnical Consultant prior to placement of materials for construction of the fill portion of the
slope, unless otherwise recommended by the Geotechriical Consultant.
3030.1094
Leighton and Associates, Inc.
GENERALEARTl WORK AND GRADING SPECIFICATlONS
Page 6 of 6
7.0 Trench Backfills
7.1 The Contractor shall follow all OHSA and CaI/OSHA requirements for safety of trench
excavations.
7.2 All bedding and backfill of utility trenches shall be done in accordance with the applicable
provisions of Standard Specifications of Puhlic Works Construction. Bedding material
shall have a Sand Equivalent greater than 30 (SE>30). The bedding shall be placed to 1
foot over the top of the conduit and densified by jetting. Backfill shall be placed and
densified to a minimum of 90percent of maximrim from 1 foot above the top of the
conduit to the surface.
7.3 The jetting of the bedding around the conduits shall be observed by the Geotechnical
Consultant.
7.4 The Geotechnical Consultant shall test.the trench backfill for relative compaction. At least
one test should be made for every300 feet of trench and 2 feet of fill.
7.5 Lift thickness of trench backfill shall not exceed those allowed in the Standard
Specifications of Public Works Construction unless the Contractor can demonstrate to the
Geotechnical Consultant that the fill lift can be compacted to the minimum relative
compacIion by nis aiternativeequipmenr ana mernoa.
3030.1094
FILL SLOPE
PROJECTED PLANE 1 TO 1 MAXIMUM Fa
KEY BENCH
OEPTH (KEY)
FILL-OVER-CUT SLOPE ______---
GROUND SURFACE
--
REMOVE UNSUITABLE MATERIAL
-
(KEY) DEPTH
LCUT FACE.
SHALL BE CONSTRUCTED PRIOR TO FILL PLACEMENT TO ASSURE
ADEOU A TE GEOLOGIC CONDITIONS />'
UT FACE SHALL BE
Tn c<, I n, .CITI#.-..T I" I ILL I LnbLo"tLe.9 CL'Ft-J\,tr+F'!n SLt-JDE
OVERBUILD AND TRIM BACK
PROJECTED PLANE MATERIAL
1 TO 1 MAXIMUM
FROM TOE OF SLOPE
TO APPROVED GR FOR SUBDRAINS SEE STANDARD DETAIL C~
15' MIN. 4 2' MIN. LOWEST
KEY BENCH
DEPTH (KEY)
BENCHING SHALL 8E DONE WHEN SLOPE'S
ANGLE IS EQUAL TO OR GREATER THAN 5:1.
MINIMUM BENCH HEIGHT SHALL BE 4 FEET
AND MINIMUM FILL WIDTH SHALL BE 9 FEET.
GENERAL EARTHWORK AND GRADING SPEClFl CATIONS
STANDARD DETAILS A KEYING AND BENCHING
I I LEIGHTON AND ASSOCIATf5
\
OVERSIZE WINDROW
OVERSIZE ROCK IS LARGER THAN 8 INCHES IN LARGEST DIMENSION.
EXCAVATE A TRENCH IN THE COMPACTED
FILL OEEP ENOUGH TO BURY ALL THE
ROCK.
EACKFILL WITH GRANULAR SOIL JETTED
OR FLOODED IN PLACE TO FILL ALL THE
VOIDS.
DC NOT BURY ROCK WITHIN 10 FEET OF
FINISH GRADE.
WINDROW OF BURIED ROCK SHALL BE
PARALLEL TO THE FINISHED SLOPE.
GRANULAR MATERIAL TO BE ' DETAIL DENSIFIED IN PLACE BY
FLOODING OR JETTING.
TYPICAL PROFILE ALONG WINDROW
OVERSIZE
ROCK DISPOSAL
GENERAL EARTHWORK AND
GRADING SPECIFICATIONS
STANDARD DETAILS B
I LEICHTON Ah9 ASSOCIATES
TRENCH
SEE DETAIL BELOW
FILTER FABRIC
CALTRANS CLASS 2 PERM OH #Z ROCK (9FTe3/FT) IN FILTER FABRIC
COLLECTOR PIPE SHALL BE MINIMUM 6" DIAMETER
SCHEDULE 40 PVC PERFORATED
PIPE. SEE STANDARD DETAIL D FOR PIPE SPECIFICATIONS -
(MIRAFI 140N OR APPROVED
EQUiVALEN T)
20' MIN. 4 5' MIN PERF ORATED 6" 0 MIN. PIPE NONPERFORATED S"0 MIN.
CANYON SUBDRAINS GENERAL EARTHWORK AND
GRADING SPECIFICATIONS
STANDARD DETAILS C
LElCHTON AND ASSOCIATES
KEY WIDTH i
FROM THE TOP HOG
12" MIN. OVERLAP
RING TIED EVERY
6 FEET T - CON N E C TI ON / ;$ ?::;$ PIPE
4" 0 PERFORATED PIPE
I AS NOTED ON GRADING PLANS -KEY DEPTH (15' MIN.)
(2' MIN.)
fAl-TRANS CLASS I1 -
PERMEABLE OR #2
ROCK (3 fT*3/FT)
WRAPPED IN FILTER
FABRIC
I
4" MIN. BEDDING FILTER FABRIC
ENVELOPE (MIRAFI 140 OR APPROVED
PROVIDE POSITIVE
SEAL AT THE
JOINT EOUIVALENT)
SUBDRAIN TRENCH DETAIL
SUBDRAIN INSTALLATION - subdrain collector pipe shall be installed with perforotion down or.
unless otherwise designoted by the geotechnical consultont.
pipe. shall be 1/4" to 1/2" if drill holes ore used.
leost 2% tawords the outlet.
SUBDRAIN PIPE - Subdroin pipe shall be ASTM 02751. SDR 23 5 or ASTM B1527. Schedule 40. or
ASTM D3034, SDR 23 5. Schedule 40 Polyvinyl Chloride Plastic (PVC) pipe
All outlet pipe shall be ploced in o trench no wide thon twice the subdrain pipe.
soil of SE >/=30 jetted or flooded in ploce except for the outside 5 feel which shall be native
soil backfill.
Outlet pipes sholl be non-perforated Perforation The subdrain pipe shall have at least 8 perforotions uniformly spoced per foot.
All subdrain pipes sholl hove o grodien! of at
Pipe shall be in
BUTTRESS OR
REPLACEMENT FILL
SUBDRAINS
GENERAL EARTHWORK AND
GRADING SPECIFICATIONS
STANDARD DETAfLS D
I CEIGHTON AN0 ASSOCIATES
SOIL BACKFILL, COMPACTED TO 90 PERCENT RELATIVE COMPACTION
BASED ON ASTM 01557 i
WALL FOOTlNG ~
COMPETENT BEDROCK OR MATERIAL AS EVALUATED BY THE GEOTECHNICAL CONSULTANT
NOTE: UPON REVIEW BY THE GEOTECHNICAL CONSULTANT,
COMPOSITE DRAINAGE PRODUCTS SUCH AS MIRADRAIN OR
CLASS 2 PERMEABLE MATERIAL. LNSTALLATION SHOULD BE
PERFORMED IN ACCORDANCE WITH MANUFACTURER'S
SPECIFICATIONS.
J-DRAIN MAY BE USED AS AN ALTERNATIVE TO GRAVEL OR
RETAINING WALL
DRAINAGE DETAIL
GENERAL EARTHWORK AND
GRADING SPECIFICATIONS
STANDARD DETAILS E
w
1 3
3
J
\ v‘ QJ s
3 k k
3 v3