HomeMy WebLinkAboutMS 06-01; MCCARTHY RESIDENCE; PRELIMINARY SOILS INVESTIGATION FOR PROPOSED TWIN HOMES; 2004-09-08.0.t
NORTh COUNTY
COMPACTION
ENGINEERING, INC.
RECE7iI
PRELIMINARY SOILS INVESTIGATION
FOR
PROPOSED TWIN HOMES
5115 CARLSBAD BOULEVARD
CARLSBAD, CALIFORNIA
CAROLINE DOOLEY
2979 STATE STREET
SUITE A
CARLSBAD, CA 92008
SEPTEMBER 8, 2004
PROJECT NO. CE-7275
M) ob-ol
NORTH COUNTY
COMPACTION
ENGINEERING, INC.
TABLE OF CONTENTS
Page
1.) Purpose and Scope 1
2.) Location and Description of Site I
3.) Field Investigation 1
4.) Soil Conditions 2
5.) Laboratory Soil Testing 2
6.) Recommendations and Conclusions 3
A.) Grading 3
• B.) Foundations 4
• C.) Slopes 5
Retaining Walls 5
• Estimated Paving Sections 6
•: F.) Seismic Design Considerations 7
• G.) Review of Grading Plan 7
7.) Uncertainty and Limitations 7
APPENDIX
Appendix A: Exploration Legend & Unified Soil Classification Chart
Plate No. One Test Pit Location Plan
Plate No. Two & Three Exploration Logs
Plate No. Four Tabulation of Test Results
Appendix B: Recommended Grading Specifications
NORTH COUNTY
COMPACTION
ENGINEERING, INC.
Project No. CE-7275
September 8, 2004
Caroline Dooley
2979 State St. Ste. A
Carlsbad, CA 92008
SUBJECT: Preliminary Soils Investigation
Proposed Twin Homes
5115 Carlsbad Boulevard
Carlsbad, California
Dear Ms. Dooley:
In response to your request, we have performed a Preliminary Soils Investigation for the subject
- project.
The purpose of our investigation was to evaluate the suitability of the site for the proposed
development and make recommendations with regard to site grading and foundation design.
Briefly, our investigation revealed favorable soil conditions and in our opinion, the site is
suitable for the proposed development, provided recommendations set forth in the attached report
are adhered to.
If you have any questions, please do not hesitate to contact us. This opportunity to be of service
is sincerely appreciated.
Respectfully submitted,
North County
COMPACTION ENGINEERING, INC.
Ronald K. Adams
President
\,
1 GE 713 fI IJ ( rn
c Ep 9/30/05 I
Dale R. Regli OF
Registered Civil E
Geotechnical Engineer 000713
RKA:paj
cc: (4) submitted
P. 0. BOX 302002 * ESCONDIDO, CA 92030 * (760) 480-1116 FAX (760) 741-6568
1
!
NORTH COUNTY
COMPAC11ON INC.
Project No. CE-7275
ENGINEERING
Page 1
September 8, 2004
1. PURPOSE AND SCOPE
The purpose of the investigation was to determine if the site is suitable for the proposed twin
homes.
The scope of the investigation was to:
Determine the physical properties and engineering characteristics of the
surface and subsurface soils.
Provide design information with regard to grading, site preparation, and
foundation design of the proposed structure(s).
2. LOCATION AND DESCRIPTION OF SITE
The site is located at 5115 Carlsbad Boulevard in the City of Carlsbad, California.
The 75 X 80 foot rectangular shaped lot is bordered by single family dwellings to the north, south
and west and Carlsbad Boulevard to the east.
Site topography consists of a predominantly flat lot pitched downhill to the west.
The site is presently occupied by single story duplex units. The duplex is generally landscaped
with walkways, driveways, fences, lawns, shrubs, small trees, etc.
3. FIELD INVESTIGATION
The field investigation was performed on August 24, 2004 and included an inspection of the site
and excavation of one exploratory boring to depth of 15 feet, utilizing a truck mounted, 8 inch
diameter continuous flight auger. Due to limited access at the rear yard area of the property, a
hand dug test pit to a depth of 2 feet was also excavated. The location of the test pit and drill
boring is delineated on attached Plate No. One entitled "Test Pit Location Plan."
As excavation proceeded, the drill boring and test pit excavations were logged and both disturbed
and undisturbed soil samples were collected at different depths and returned to our laboratory for
testing.
NORTH COUNTY
COMPACTION
ENGINEERING, INC.
Project No. CE-7275
September 8, 2004
Page 3
6. RECOMMENDATIONS AND CONCLUSIONS•
General
It is our understanding, the proposed twin homes will consist of wood frame construction
utilizing slab on grade foundations.
In our opinion, the site is suitable for the proposed twin homes. Recommendations presented in
this report should be incorporated into the planning, design and construction phases of the
subject project.
6A. Grading
General
Grading at the site will be performed to remove and recompact compressible top soils (old
fill/plowed ground) and to construct a level building pad to accommodate the proposed twin
home.
All grading should be performed in accordance with the City of Carlsbad Grading Ordinance and
the Recommendations/Specifications presented in this report.
Subsequent to site demolition, loose surficial soils (plowed ground/old fill), as indicated on the
attached Plate No's Two and Three, should be undercut or removed to firm native ground and
recompacted in accordance with the attached Appendix 'B' entitled "Recommended Grading
Specification". Firm native ground may be determined as undisturbed soil having an insitu
density of greater than ninety percent (90%) of maximum dry density. We should be contacted to
document firm native ground is exposed and properly prepared prior to filling. The removal area
should extend under and a minimum of 5 feet beyond (where applicable) the footprint of the
proposed structure and/or surface improvements.
Prior to constructing fill slopes, shear keys should be excavated a minimum of 2 feet into firm
native ground, inclined back into slope, and have a minimum width of 15 feet. We should be
contacted to document keyways were properly constructed prior to placing fill.
All fill soils generated from earthwork construction should be placed in conformance with the
attached Appendix 'B' entitled, "Recommended Grading Specifications".
NORTH COUNTY
COMPACTION
ENGINEERING, INC.
Project No. CE-7275
September 8, 2004
Page 2
Undisturbed samples were obtained by driving a 3 inch outside diameter California Split Spoon
Sampler into undisturbed soil, utilizing 140 pound hammer, free falling a distance of 30 inches.
Type of soils samples collected, natural densities, moisture content, blow counts and sample
penetration are presented on the attached Plate No.'s Two and Three entitled "Exploration Logs".
SOIL CONDITIONS
Loose surficial soils (silty-sands) consisting of old fill and/or plowed ground were found to be 2
feet and 172 feet in depth in Drill Boring No. One and Test Pit No. One, respectively.
Underlying native soils to depths explored were dense silty-sandstones of the Coastal Terrace
Deposit.
On-site soils were found to have an expansion index of less than 5 and are classified as being
"very low" in expansion potential.
Groundwater was not encountered at the time of our investigation, nor did caving of exploratory
trenches occur. In addition, due to the dense nature of the underlying sandstone formation
at the site, it is our opinion, soil liquefaction is unlikely to occur in the event grading is
performed in accordance with the recommendations set forth in this report.
LABORATORY SOIL TESTING
All laboratory test were performed on typical soils in accordance with accepted test methods of
the American Society for Testing and Materials (ASTM).
Tests conducted include:
Optimum Moisture & Maximum Density (ASTM D- 1557)
Direct Shear (Remold) (ASTM D-3080)
Q. Sieve Analysis (ASTM D-1 140)
Field Density & Moisture (ASTM D-1 556)
Expansion Potential (FHA Standard)
Test results are tabulated on the attached Plate No.'s Two through Four entitled "Exploration
Log" and "Tabulation of Test Results".
NORTH COUNTY
COMPACTION
ENGINEERING, INC.
Project No. CE-7275
September 8, 2004
Page 4
If required, soils to be imported should be non-expansive (less than 2% swell) and granular by
nature, having strength parameters equal to or greater than the prevailing on-site soils. We should
be contacted to inspect an/or test imported soils prior to hauling then on-site to assure they will
be suitable for the proposed construction.
Particles of asphalt and concrete debris, having a diameter of greater than 6 inches, will not be
suitable fill material and should be separated from fines during grading and hauled off-site.
If encountered, leach lines and/or pipes should be removed. Concrete pipes may be crushed in
place. Trench lines should be recompacted in accordance with Appendix 'B'.
It is highly probable the proposed structure will be traversed by a transition from native ground to
fill. Therefore, to reduce structural damage occurring from foundations bearing on two different
soil types, the following measure should be employed:
The native ground side of the transitional areas should be removed to a depth of 1 foot below the
bottom of the deepest proposed footing and brought back to grade with properly compacted fill.
This will allow the proposed structure to bear entirely on a compacted fill mat, thus reducing the
probability of differential settlement. The removal area should extend under and a minimum of 5
feet beyond the proposed structure.
6B. Foundations
General
On-site soils are comprised of non-expansive sandy soils with above average strength
parameters. Therefore, conventional foundation may be utilized provided the aforementioned
grading recommendation are adhered to.
For One-Story Construction:
Continuous footing having a minimum width of 12 inches and founded a minimum depth of 12
inches below lowest adjacent grade will have an allowable soil bearing pressure of 2000 pounds
per square foot.
For Two-Story Construction:
Continuous footings should have a minimum width of 15 inches and be founded a minimum
depth of 18 inches below lowest adjacent grade.
COMPACTION
NORTH COUNTY
COMPACTION
ENGINEERING, INC.
Project No. CE-7275
September 8, 2004
Page
Isolated square footings having a diameter of 18 inches and founded a minimum depth of 18
inches below lowest adjacent grade will have an allowable soil bearing pressure of 2000 pounds
per square foot.
All continuous footings are to be reinforced with one #5 bar top and bottom. Steel should be
positioned 3 inches above bottom of footing and 3 inches below top of footing.
Interior slabs should be a minimum of 4 inches thick and reinforced with #3 bars on 18 inch
centers, both ways at mid-point of thickness.
Slab underlayment should consist of 4 inches of washed concrete sand with a visqueen moisture
• barrier installed at mid-point of sand (2 inches sand, visqueen, 2 inches sand). Sand should be
tested in accordance with ASTM D-2419 to insure a minimum sand equivalent of 30.
Foundation set-backs from top of slopes should be a minimum of 8 feet. If this cannot be
achieved, footings near or on adjacent slopes should be founded at a depth such that the
horizontal distance from the bottom outside edge of footing to the face of the slope is a minimum
of 8 feet.
Prior to pouring of concrete, North County COMPACTION ENGINEERING, INC. should be
contacted to inspect foundation recommendations for compliance to those set forth.
6C. Slopes
Cut and compacted fill slopes constructed to maximum heights of 10 feet with maximum slope
ratios of 2:1 (horizontal to vertical units) will be stable with relation to deep seated failure,
provided they are properly maintained. During grading, positive drainage away from top of
slopes should be provided. Subsequent to completion of grading, slopes should be planted as
soon as possible with light groundcover indigenous to the area.
Our analysis was performed utilizing Taylor's Charts for cut and compacted fill slopes and a
safety factor of 1.5.
61). Retaining Walls
For static conditions, the prevailing soils will have an allowable equivalent passive fluid pressure
of 365 psf, increasing 365 psf per foot in depth. Allowable pressures assume walls are backfilled
with a non-expansive sand a distance behind the wall equivalent to two-thirds the retained height.
NORTH COUNTY
COMPACTION
ENGINEERING, INC.
Project No. CE-7275
September 8, 2004
Page 6
Allowable active pressures may be assumed to be equivalent to the pressure of a fluid weighing
37 pcf for unrestrained walls. These values assume a vertical, smooth wall, and a level, drained
backfill. Should these conditions not be met, we should be contacted for new values.
Allowable active pressures for restrained walls may be assumed to be equivalent to the pressure
of a fluid weighing 37 pcf, plus an additional uniform lateral pressure of 8H. H=height of
retained soils above top of wall footing in vertical feet.
Allowable active pressures for retaining walls with 2:1 inclinations of sloping surcharge may be
assumed to be equivalent to a pressure of fluid weighing 53 pcf.
The coefficient of friction of concrete to soil may be assumed to be .40 for resistance to
horizontal movement.
All walls should be provided with drains behind and at the base of the wall. To provide a well
drained condition, Miradrain 6000 and/or its equivalent is recommended. Drains should be
constructed in accordance with the manufacturers specifications. Back of walls should be water-
proofed (when applicable) per the project structural engineers recommendations.
6E. Estimated Paving Section
Structural section for asphaltic paving for the proposed driveways and parking area are based on
an estimated R-Value of 45. The following section is provided for bid purposes only. Actual
sections should be determined subsequent to completion of grading operations.
Assumed Traffic Index = 4.5
(Light Vehicular Traffic)
2Y2 inches of asphaltic paving on
4 inches of select base coarse on
6 inches of recompacted native subgrade.
All materials and construction for asphaltic paving and base should conform to the Standard
Specifications of the State of California Business and Transportation Agency, Department of
Transportation, Sections 39 and 26, respectively. Class II base material should have a minimum
R-Value of 78 and a sand equivalent of 30. All materials should be compacted to a minimum of
ninety-five percent (95%).
NORTH COUNTY
COMPACTION
ENGINEERING, INC.
Project No. CE-7275
September 8, 2004
Page 7
Rigid Concrete Paving:
4 inches of concrete reinforced with #3 bars on 18 inch center, both ways, on
12 inches of recompacted native subgrade soil compacted to a minimum of 95%.
NOTE: All concrete should have a minimum compressive strength of 3250 psi.
6F. Seismic Design Considerations (Soil Parameters)
Soil Profile = SD (Table 16-i of the 1997 Uniform Building Code)
Type 'B' Fault (Rose Canyon)
Distance =6 km (California Department of Conservation, Division
of Mines and Geology [maps], in conjunction with Tables 16-S and 16-T of
the 1997 Uniform Building Code)
6G. Review of Grading Plan
Approved site and grading plans were not available at the time of our investigation. Therefore,
upon their completion, we should review them to assure compliance with the recommendations
presented in this report.
7. UNCERTAINTY AND LIMITATIONS
Surface and subsurface soils are assumed to be uniform. Therefore, should soils encountered
during construction differ from those presented in this report, we should be contacted to provide
their engineering properties.
It is the responsibility of the owner and contractor to carry out recommendations set forth in this
report.
During our investigation of the subject site, evidence of faulting was not encountered.
Subsequent to review of available geologic literature, we feel any faulting in the vicinity of the
site may be classified as inactive. However, it should be noted that San Diego County is located
in a high seismic area with regard to earthquake. Earthquake proof projects are economically
unfeasible. Therefore, damage as a result of earthquake is probable and we assume no liability.
NORTH
COMPACTION
INC.
Project No. CE-7275
ENGINEERING,
September 8, 2004
Page 8
We assume the on-site safety of our personnel only. We cannot assume liability of personnel
other than our own. It is the responsibility of the owner and contractor to insure construction
operations are conducted in a safe manner and in conformance with regulations governed by
CAL-OSHA and/or local agencies.
Should you have any questions, please do not hesitate to contact us. This opportunity to be of
service is sincerely appreciated.
Respectfully submitted,
North County
COMPACTION ENGINEERING, INC.
Ronald K. Adams
President
RKA:paj
cc: (4) submitted
I
;f(\oF ES S/3
CIO GE 713 'rn
FIn. 9/30/05 4" 11 'FC Dale R. Regli
Registered Civil En f q
Geotechnical Engineer
NORTH COUNTY
COMPACTION
ENGINEERING, INC.
EXPLORATION LEGEND
UNIFIED SOIL CLASSIFICATION CHART
SOIL DESCRIPTION
COARSE GRAINED: More than
half of material is larger than
No. 200 sieve size.
GRAVELS CLEAN GRAVELS
More than half of coarse fraction
is larger than No. 4 sieve size, but
smaller than 3".
GRAVELS WITH FINES
(Appreciable amount of fines)
SANDS CLEAN SANDS
More than half of coarse fraction
is smaller than No. 4 sieve size.
SANDS WITH FINES
(appreciable amount of fines)
FINE GRAINED: More than half
of material is smaller than No.200
sieve size.
SILTS AND CLAYS
Liquid Limit
less than 50
SILTS AND CLAYS
Liquid Limit
greater than 50
HIGHLY ORGANIC SOILS
GROUP SYMBOL TYPICAL NAMES
OW Well graded gravels, gravel-sand
mixtures, little or no fines.
OP Poorly graded gravels, gravel sand
mixtures, little or no fines.
GM Silty gravels, poorly graded gravel-
sand-silt mixtures.
GC Clayey gravels, poorly graded
gravel-sand, clay mixtures.
SW Well graded sand, gravely sands,
little or no fines.
SP Poorly graded sands, gravely sands,
little or no fines.
SM Silty sands, poorly graded sand and
silt mixtures.
SC Clayey sands, poorly graded sand
and clay mixtures.
ML Inorganic silts and very fine sands,
rock flour, sandy silt or clayey-
silt-sand mixtures with slight
plasticity.
CL Inorganic clays of low to medium
• plasticity, gravely clays, lean clays.
OL Organic silts and organic silty clays
of low plasticity.
MH Inorganic silts, micaceous or
• diatomaceous find sandy or silty
soils, elastic silts.
CH Inorganic clays of high plasticity,
fat clays.
OH Organic clays of medium to high
plasticity.
PT Peat and other highly organic soils.
US - Undisturbed, driven ring sample or tube sample
CK - Undisturbed chunk sample
BG - Bulk sample
. Water level at time of excavation or as indicated
APPENDIX 'A'
Proposed Twin Homes
Carlsbad Boulevard
Carlsbad, California Approx. Scale
151
- PAVrMrIJT
NORTH COUNTY COMPACTION ENGINEERING, INC.
SOIL TESTING & INSPECTION SERVICES
TEST PIT LOCATION PLAN
PROJECT NO. CE- 7275 PLATE NO. ONE
NORTH COUNTY
COMPACTION
ENGINEERING, INC.
EXPLORATION LOG
PROJECT NAME: Carlsbad Blvd, Carlsbad DATE LOGGED: 08/24/04
ELEVATION: Existing Grade BORING NO.ONE
Depth Sample Dry Moisture Passing Sample Soil Description & Remarks
(Feet) Type Density Content #200 Depth Classif-
______
(pcf) (%) Sieve ication
SM Brown Red, Dry, Loose Silty-Sand
BG 21.9 it (Plowed Ground / Old Fill)
(Remove and Recompact)
------- ---------- --------- -
SM Brown Red, Humid, Dense, Silty-Sand
U 118.1 5.8 3' (Firm Native Coastal Terrace)
(Blow Count at 3 Feet .16 for 12 Inches)
4-
5- U 116.1 5.9 5' (Blow Count at 5 Feet = 23 for 12 inches)
6-
7-
8-
9-
10- U 118.7 4.8 11.8 10' SM Yellow Brown, Humid, Very Dense,
Silty-Sandstone (Coastal Terrace)
(Blow Count at 10 Feet = 36 for 11 Inches)
PROJECT NO. CE-7275 PLATE NO. TWO
NORTH COUNTY
COMPACTION
ENGINEERING, INC.
EXPLORATION LOG
PROJECT NAME: Carlsbad Blvd.Carlsbad DATE LOGGED: 08/24/04
ELEVATION: Existing Grade BORING NO. ONE cont'd
Depth Sample Dry Moisture Passing Sample Soil Description & Remarks
(Feet) Type Density Content #200 Depth Classif-
______
(pet) (%) Sieve ication
SM Yellow Brown, Humid, Very Dense
11-
Silty-Sandstone
(Coastal Terrace)
12-
13-
14-
15- --U---. _____ ____ ____ _____
Bottom of Drill Boring
16-
PROJECT NO. CE-7275 PLATE NO. TWO(cont'd)
NORTH COUNTY
COMPACTION
ENGINEERING, INC.
TABULATION OF TEST RESULTS
OPTIMUM MOISTURE/MAXIMUM DENSITY
SOIL DESCRIPTION TYPE MAX. DRY DENSITY OPT. MOISTURE
(LB. CU. FT) (% DRY WT
Brown Silty-Sand BI @ 1' 130.0 08.2
Brown Silty-Sand P1 @ 0-1' 123.5 : 09.4
EXPANSION POTENTIAL
SAMPLE NO. B1@1' P1(0-1'
CONDITION Remold 90% Remold 90%
INITIAL MOISTURE (%) 7.9 9.4
AIR DRY MOISTURE (%) 1.0 1.8
FINAL MOISTURE (%) 12.6 16.8
DRY DENSITY (PCF) 117.0 111.2
LOAD (PSF) 150 150
SWELL (%) .000 .000
EXPANSION INDEX Less than 5 Less than 5
DIRECT SHEAR
SAMPLE NO. BI @ 1' P1 @ 0-1,
CONDITION Remold 90% Remold 90%
ANGLE INTERNAL FRICTION 31 33
COHESION INTERCEPT (PCF) 125 100
PROJECT NO. CE-7275
PLATE NO. FOUR
NORTH COUNTY
COMPACTION
ENGINEERING, INC.
EXPLORATION LOG
PROJECT NAME: Carlsbad Blvd. Carlsbad DATE LOGGED: 08/24/04
ELEVATION: Existing Grade TEST PIT NO.ONE
Depth Sample Dry Moisture Passing Sample Soil Description & Remarks
(Feet) Type Density Content #200 Depth Classif-
______
(pcf) (%) Sieve ication
BO 24.1 0 -11 SM Brown, Dry, Loose, Silty-Sand
(Plowed Ground / Fill)
- (Remove and Recompact)
SM Brown Red, Dry, Dense, Silty-Sand
(Firm Native / Coastal Terrace)
2- ------ ____ --------- .-----• ------ ---___ .---
Bottom of Test Pit
3-
PROJECT NO. CE-7275 PLATE NO.THREE
-
NORTH COUNTY
COMPACTION
ENGINEERING, INC.
PLACING AND SPREADING OF FILL
The selected fill material shall be placed in layers which when compacted will not exceed 6
inches in thickness.
Each layer shall be spread evenly and shall be thoroughly blade mixed during the spreading to
insure uniformity of material in each layer.
When moisture content of the fill material is below that recommended by the Soils Engineer,
water shall then be added until the moisture content is as specified to assure thorough bonding
during the compacting process.
When the moisture content of the fill materials is above that recommended by the Soils Engineer,
the fill material shall be aerated by blading or other satisfactory methods until the moisture
content is as specified.
COMPACTION
After each layer has been placed, mixed, and spread evenly, it shall be thoroughly compacted to
not less than ninety percent (90%) relative compaction. Compaction shall be by sheepsfoot
rollers multiple-wheel pneumatic tired rollers or other types of rollers.
Rolling shall be accomplished while the fill material is at the specified moisture content. Rolling
each layer shall be continuous over it's entire area and the roller shall make sufficient trips to
insure that the desired density has been obtained.
The fill operation shall be continued in 6 inch compacted layers, or as specified above, until the
fill has been brought to the finished slopes and grades shown on the project plans.
WALL BACKFILL
Backfill soils should consist of non-expansive sand, Compaction should be achieved with light
hand-held pneumatic tampers to avoid over compaction and hence cause structural damage. Wall
backfill should be compacted to a minimum of ninety percent (90%) of maximum density.
TRENCH BACKFILL
All trench backfill located within structural areas should be compacted to a minimum of ninety
percent (90%) of maximum density.
APPENDIX 'B'