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Home My WebLink About1370 PINE AVE; ; CB001427; PermitCity of Carlsbad 1635 Faraday Av Carlsbad, CA 92008 07/18/2000 Residential Permit Permit No:0B001427 Building Inspection Request Line (760) 602-2725 Job Address: 1370 PINE AV CBAD Permit Type: RESDNTL Sub Type: RAD Status: ISSUED Parcel No: 2050203800 Lot #: 0 Applied: 04/14/2000 Valuation: $171,894.00 Construction Type: NEW Entered By: GMF Occupancy Group: Reference #: Plan Approved: 07/03/2000 # Dwelling Units: 0 Structure Type: Issued: 07/18/2000 Bedrooms: 0 Bathrooms: 0 Inspect Area: Project Title: 1225 SF 2ND STRY ADD,REMODEL Orig PC#: 1620 SF,1 10 SF DECK Plan Check#: Applicant: Owner: SABALA ANNE M SABALA ANNE M 3317 07/1 '00 0001 01 0 137OPINEAVE - . I37OPINEAVE c- i 1199-29 CARLSBAD CA 92008 CARLSBAD CA 92008 Total Fees: $1,650.77 Total Payments To Date: $451.48 Balance Due: $1,199.29 Building Permit $873.08 Meter Size Add'I Building Permit Fee $0.00 Add'I Red. Water Con. Fee $0.00 Plan Check $567.50 Meter Fee $0.00 Add'I Plan Check Fee $0.00 SDCWA Fee $0.00 Plan Check Discount $0.00 CFD Payoff Fee $0.00 Strong Motion Fee $17.19 PFF $0.00 Park in Lieu Fee $0.00 PFF (CFD Fund) $0.00 Park Fee $0.00 License Tax $0.00 LFM Fee $0.00 License Tax (CFD Fund) $0.00 Bridge Fee $0.00 Traffic Impact Fee $0.00 Other Bridge Fee $0.00 Traffic Impact (CFD Fund) $0.00 BTD #2 Fee $0.00 LFMZ Transportation Fee $0.00 BTD #3 Fee $0.00 Sidewalk Fee $0.00 Renewal Fee $0.00 PLUMBING TOTAL $112.00 Add'I Renewal Fee $0.00 ELECTRICAL TOTAL $20.00 Other Building Fee $0.00 MECHANICAL TOTAL $61.00 Pot. Water Con. Fee $0.00 Housing Impact Fee $0.00 Meter Size Housing InLieu Fee $0.00 Add'I Pot. Water Con. Fee $0.00 Master Drainage Fee: $0.00 Red. Water Con. Fee $0.00 Sewer Fee: $0.00 TOTAL PERMIT FEES $1,650.77 FINAL APPROVAL Inspector: Date: Clearance: NOTICE: Please take NOTICE that approval of your project includes the "Imposition" of fees, dedications, reservations, or other exactions hereafter collectively referred to as fees/exactions." You have 90 days from the date this permit was issued to protest imposition of these fees/exactions. If you protest them, you must follow 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 follow that procedure will bar any subseqLent legal action to attack, review, set aside, void, or annul their imposition. Yoi are hereby FURTHER NOTIFIED that your right to protest the specified fees/exactions DOES NOT APPLY to water and sewer connection fees and capactiy changes, nor planning, zoning, grading or other similar application processing or service fees in coinection with this project NOR DOES IT APPLY to any fees/exactions of which you have previously been given a NOTICE similar to this, or as to which the statute of limitations has previously otherwise expired. K FOR OFFICE USE ONLY PERMIT APPLICATION PLAN CHECK NO.C.00' CITY OF CARLSBAD BUILDING DEPARTMENT EST. VAL. (a o 1635 Faraday Ave., Carlsbad, CA 92008 Plan Ck. Deposit Validated By)l- Date4q1eO 1 c 7CflNFOFON t"J E7 A dress include Bldg/Suite #) Business Name (at this address) '--- Legal Description Lot No. 1 Subdivision Name/Number 2c3. cZc Unit No. Phase No. Total # of Units . j/ii1 i/iii1 Assessor's Parcel # Existing Use .L Proposed Use T/ o Tc2'..f c> vrlo J Z.._ '2.... Description of Work I' SQ. FT. #of Stories # of Bed'oom # of Bathrooms 2 NTACT P RSO (if ifferent from applicant) U624,w NI (XA-r 1 ,2&1 4b 2/ -t Name Address City StatetZip TelI4. I 3. AERLICANT 11 Contractor fl Anent for Contractor fl Owner rllAaent for Owner - Naie - Address Cy State/Zip Telephone # 4 PROPERTY OWNER Name Address City State/Zip Telephone # 5 CONTRACTOR COMPANY NAME (Sec. 7031.5 Business and Professions Code: Any City or County which requires a permit to Construct, alter, improve, demjlish or repair any structure, prior to its 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, commending 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 Sect' o 7031.5 by any applicant for a permit subjects the applicant to a civil penalty of not ore than five hundred dollars [$500 6/t j— i4 Z Name Address City ' State/Zip Tehone # State License # 77/ License Class City Business License #/2O " Designer Name Address City State/Zip Telephone State License # 6 WORKERS COMPENSATION Workers' Compensation Declaration: I hereby affirm under penalty of perjury one of the following declarations: 0 I have and will maintain a certificate of consent to self-insure for workers' compensation as provided by Section 3700 of the Labor Code, for the performance of the work for which this permit is issued. I have and will maintain workers' compensation, as required by Section 3700 of the Labor Code, for the performance of the work for which this permit is issued. My worker's compensation insurance carrier and policy number are: Insurance Company /'Cf t-,-t" Policy No.____ Expiration Date__________________ (THIS SECTION NEED NOT BE COMPLETED IF THE PERMIT IS FOR ONE HUNDRED DOLLARS [$ 1001 OR LESS) C] 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 pena-ties and civil fines up to one hundred thousand dollars 0.000), In dditioJ,to the cost of compensation, damages as provided for in Section 3706 of the Labor code, intere t and attorney's fees. SIGNATURE DATE 7//f72 7 OWNER BUILDER DECLARATION I hereby affirm that I am exempt from the Contractor's License Law for the following reason: o 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 builis 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). 0 I, as owner of the property, am exclusively contracting with licensed contractors to construct the project (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 contracts for such projects with contractor(s) licensed pursuant to the Contractor's License Law). 0 I am exempt under Section Business and Professions Code for this reason: 1. I personally plan to provide the major labor and materials for construction of the proposed property improvement. 0 YES []NO 2. I (have / have not) signed an application for a building permit for the proposed work. 3. I have contracted with the following person (firm) to provide the proposed construction (include name / address / phone number / contractors license number): 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 / address / phone number I contractors license number): I will provide some of the work, but I have contracted (hired) the following persons to provide the work indicated (include name I address / phone number / type of work): PROPERTY OWNER SIGNATURE DATE COMPLETE THIS SECTION FOR NONRESIDENTIAL BUILDING PERMITS ONLY Is the applicant or future building occupant required to submit a business plan, acutely hazardous materials registration form or risk management and prevention program under Sections 25505, 25533 or 25534 of the Presley-Tanner Hazardous Substance Account Act? 0 YES 0 NO Is the applicant or future building occupant required to obtain a permit from the air pollution control district or air quality management district? 0 YES 0 NO Is the facility to be constructed within 1,000 feet of the outer boundary of a school site? 0 YES 0 NO 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. 8. CONSTRUCTION LENDING AGENCY I hereby affirm that there is a construction lending agency for the performance of the work for which this permit is issued ISec. 30970I Civil Code). LENDER'S NAME LENDER'S ADDRESS__________________________________________________________ 9 APPLICANT CERTIFICATION I certify that I have read the application and state that the above information is correct and that the information on the plans is accurate. I agree to comply with all City ordinances and State laws relating to building construction. I by authorize representatives of the Cit' of Carlsbai to enter upon the above mentioned property for inspection purposes. I ALSO AGREE TO SAV . IN MNIFY AND KEEP HARMLESS THE CITY OF CAtLSBAD AGAINST ALL LIABILITIES, JUDGMENTS, COSTS AND EXPENSES WHICH AY IN ANY AY CRUE AGAI T SAID CITY IN CONSEQUENCE OF THE GRANTING OF THIS PERMIT. OSHA: An OSHA permit is required for excaons ovr aro and e liti or construction of structures over 3 stories in height. EXPIRATION: Every permit issued by thilding 0 r the provision f this Code shall expire by limitation and beccme null and void if the building or work authorized by such permit is not commsp'd within 0 e e of _uch_ermit or if the building or work authorized by such permit is suspended or abandoned at any time after the work is commeriifor a pe 0 days' n 6.4.4 niform Building Code). I APPLICANT'S SIGNATURE DATE/ _ -.-- File TE[LOW: Applicant PINK: Finance 41 City of Carlsbad Bldg Inspection Request For: 03/20/2001 Permit# CB001427 Title: 1225 SF 2ND STRY ADD,REMODEL Description: 1620 SF,110 SF DECK Type: RESDNTL Sub Type: RAD Job Address: 1370 PINE AV Suite: Lot 0 Location: APPLICANT SABALA ANNE M Owner: SABALA ANNE M Remarks: Total Time: Inspector Assignment: SR Phone: 7608013274 Inspector: Requested By: RON Entered By: CHRISTINE CD Description 19 Final Structural 29 Final Plumbing 39 Final Electrical 49 Final Mechanical Act Comments / Associated PCRs Inspection History Date Description 03/16/2001 19 Final Structural 03/16/2001 23 Gas/Test/Repairs 03/16/2001 29 Final Plumbing 03/16/2001 39 Final Electrical 03/16/2001 49 Final Mechanical 11/28/2000 17 Interior Lath/Drywall 11/21/2000 14 Frame/Steel/Bolting/Welding 11/21/2000 16 Insulation 11/21/2000 24 Rough/Topout 11/21/2000 34 Rough Electric 11/16/2000 14 Frame/Steel/Bolting/Welding 11/14/2000 14 Frame/Steel/Bolting/Welding 11/14/2000 44 Rough/Ducts/Dampers 11/09/2000 24 Rough/Topout 10/25/2000 13 Shear Panels/HD's 10/23/2000 13 Shear Panels/HD's Act lnsp Comments AP SR AP SR AP SR CO SR NEED GFI PROTECTED CIRCUITS IN KITC-IEN (2 AREAS) AP SR AP RB AP SR AP SR AP SR AP SR CO SR NEED TO COMPLETE NAILING OFT J I S CO SR LIST OF CORRECTIONS ON THE JOB SITE AP SR CO SR LEAK AT BOTTOM FLOOR WEST OF ENTRY WAY AP SR SHEAR PANEL REVISIONS ATTACHED CO SR NEED LETTER FROM ENG ON SHEAR PANEL FIX City of Carlsbad Bldg Inspection Request For: 03/20/2001 Permit# CB001427 Inspector Assignment: SR 10/23/2000 14 Frame/Steel/Bolting/Welding WC SR 10/16/2000 13 Shear Panels/HD's Co SR LIST OF CORRECTIONS ON THE JOB SITE 10/12/2000 15 Roof/Reroof AP SR NEEDS TO TIGHTEN UP BOUNDRY NAILING AT ROOF DRAG 10/11/2000 15 Roof/Reroof CO SR TO WET TO WALK 6 AND 12 PITCH 10/04/2000 13 Shear PaneIs/HDs CO SR NEED A-351N FOR SHEAR TRANSFER 10/04/2000 15 Roof/Reroof CO SR TOO WET TO WALK 08/21/2000 11 Ftg/Foundation/Piers AP SR SOILS REPORT ATTACHED 08/15/2000 21 Underground/Under Floor AP SR 08/15/2000 24Rough/Topout WC SR FROM STRUCTURAL TRUSS, INC. FAX NO. : 17607220439 N. 37 2OO 5: 217PM P1 - . (7(t4OUS.YSt(EEr 76 51O 9ZØ4 FAX (7455o).712 0438 t(.R(uE of p.c LCL CO'E r; 1fi f ic7j1jW O) - - h j qz"',q V #-Z- or- I<-OA) TZ 04- rAtill SV/ I' iMi$ 2jLf31 fO2) $HO1J 1 /4 ( LO3(i5 ,7ie STRUCTURAL TRUSS INC. 9S CERTIFIED INSPECTfON IN STRICT ACCORDANCE WITH U.S.C. 23116 PREFABRICATED CAI 1 ril p.11._N ua spciricAflCS SUE SFECU GRAM PANEL (S) Top ctcAlm 2x4 OF $2 MUCK CI7; 2x OF #2 t.2 2x OF STAND t-3 !C LAEJ%M. SUPPORT - 120C. UON. C LAIfllM StIPKFff ( 2QC: JON. IUUSS SPIN 23- 6.0 LOAD UUR&1IU1 INCREASE • 1.25 SPAEC 24.0 Ot LOAJIM u.( iOi*I&t 7. 0) ON lOP U$) - 2.O PSI Ui. ON BOTTOM OIIOPD - 10.0 psr* TOTAL LOAD - ia.0 PS 95 PSE *OIJCTlUiI TAI" ON UTTO$I 0 AXIAL SSS ONLY. w A14$L/1P1 S1N€E SN8E51 FORMS 4bGO I I- -Y76 S 852 W 1- -264 I 2- -7C6 & 2- 002 W 2- 373 fl I 3 --106 'd 3. -264 T4* -6 LEFT • M9 U014T 658 8EAffi& ARE& REUMPEO 450. IN L JUl10 I S.(* OF / t 62 Hr I I .55 F juxur 5 1-65 OF I 162 Hr1 1 -55 5 - 1L*U REPAIR FOR 11-08-04 FI€1.O SW z ATTACH 24 or ioo-o.i TO OP 1Mt WITH 460 MAILS CtUSItfi IP!0WfI5 )_ 1? 4AA-1 12 nn r 23-06-00 -.' 41t! Lf J $E: 5T%UAM - (PAM PARK6 — 3e*1ur eGMflrUN t4 tJOC-1 iftVlr-1.*71 (U -it 1121 Qd . L sm* loi1 In&f I LI 7/2006 , 0 c. IC U0 q c rorc w pm t *- b.s.ni 1 41 Jr,*. down. Sn or wedge if LAP1 I.US kIC 1. N• Iy 44. I4 4N 4.M ..w Near- N4,d- . .*. dtoo ' - N rd pli 1hr rj SO 2Q83 72 -- — --- " 8. I. &* . d..t i 8-N- *f 10. 1,1c 4.1yn ys I cur M. 4 ic*4 bV iC N.ly y.Qmmf.4 8.y. 8.. .G •.t C. yes&C 40. 11 *S *CtNI ti Syr*l.* Rá idie1 bir It., sw*t., I H8 1*1 18 * C i-v Cfl$I?4S q. t*1t4,i,I 8IiNI * 4-I. Z 002 1/01/00 WED 18:45 FAX 7604343373 TRUS JOIST MACMILLAN a, FJ- I 11.875" TJi®/Pro.250 JOIST @ 12.01 o/c IASTh 51001 1*IIOO 5:18:25 PM PUQe I c(2 Bud Cad*' 145 1 ( Ore Mm.nslon a 5" ... Q6Q A' r- Product Diagram Is ConcepaI. Matylis for Joist Member Supporting FLOOR - RES. Appcaon. Loadspst): 40 Live at 100% duration; 12 Dead: 0 ParV5ion; and. TYPE CLASS LIVE DEAD LOCATION APPLICATION COMMENT PoinIbs.) Roof(1.25) 80 260 0 Adds to Roof & Wait Load Poln1bs.) Roof(l.25) 205 255 V Adds to Stubbed Root Truss SUPPORTS: INPUT BEARING REACflONS(lbe.) W1DTH LENGTH LIVE/DEAD/TOT. PLY DEPTH DETAIL OTHER 1 20 Pigs 3.51r 3.5" 607 16921 1299 1 11.9 Detail El TJIV 810c1dn0 Panel 2 PWaiISmPSL, PPCB 5.25' Hanger 1991.37 /162 1 11.9" Detail H11 - See Ti SPECIFIER'S I BUILDERS GUIDES for detaIl(s): El, Hi. ItANQERS: Simpson Strong-TIs Ccnriectore REVERSE T.F. T.F. YODEL SLOPE SKEW FLANGES OF8ET SLOPE 1b4d Face It/Ill No No N/A N/A -NalFr,g: Rht(IUTl1)-Faoe: 10-N10 Top: N/A, Member. 2-N1 LEFT END TO 01k HEIGHT WIDTH HOLE CENTER SPAN DESIGN CONTROL COMMENT RecIvuler 7' 10.5' 3'S" Vlno'm RATING SYSTEPI The TJ-Pro (USA) RaIlrig System value provides additional floor performance information and is based on a GKed & Nailed 23132 '3S8 decng. The controlling span is supported by bums. Add$onal considerations for this rating incde: Cek!irg - None. A sucturet waeis of tIe dick has not been performed by the program. ADOI1J2tML NOTES: - IMPORTANT! The analysis presented is output from software developed by Trus Joist (Ti). Ahowable product values sliowil are Ill accordance with cur-eat T materials and code accepted design values. Ti Engineering has verifies the analysis. The input loads and dimensions have been Provided by others ( ) and must be verIfied and. approved for the specific epp&cabon by the design professional for tie project. THIS ANALYSIS FOR IRLIS JOIST PRODUCTS OF&Y! PRODUCT SUBSTITUTION VOIDS THIS AN# - Mowle Sess Design methodology was used for Code UBC analyz'irig the Ti Resideatfat product listed PROJECT INQRMATIQN R.sdadaI Remodel or 1370 Pine Avenue Carlsbad, CA Ron Ssver$nc Severino Constfiioi, Inc. QfRA9ft INFMAflQj Ti-us Joist Corp., A Weyerhaeuser Business Terry Meeker, P.E. 300 Carlsbad Vttsgo Drive, S.Me #216 Carlsbad, CA 92006 Ph: 780-434-3374 Fc780-434-3373 Governing Building Code: UBC-57 IC8O Approval: PFC-4354, ER4979 opy'4t" 0 2000 by Tf%,Jcet. eWeyert eus.t Giaen*U ', -J-Pro' eri are 1,idemaft of Tnz loiw ripe w4 Pwgft 0 we regiesred tremelin at Trus JoW SFarIe Cwnedw*0 lie re4sersd I adninerk of 5Unp.on aio-Tl. Corloarly, tJS$,1Fis'645SFJ.1 aze ?1/01/00 WED 18:48 FAX 7604343373 TRUS JOIST MAC.11LLN FJ-1 IJ.Spg' 11.875" TJ®IPro-250 JOIST Q 12.0' ofc Me,$T,z7'i EtOol 11I100 52PI Pepe 2ri2 5 Code: t DESIGN CONTROLS: MA(JMUM DESIGN CONTROL CONTROL LOCATION SheuQb) 912 904 1775 Pa3111ed(51%) Lt. Overhang under Roof loading R.scbon(lb) 1299 1299 2538 Passsd(51%) Bearing I under Roof loading Monwnt(ft-) 1376 1376 5538 Passed(25%) Lt. end Span I under Roof ALTERNATE span loading Live Dell, (in) 0.043 0,200 Psssed(L1596) Li Overhang under TJ loading criteria Total De(in) 0046 0.215 Pass.d(2U999+ Lt. Overhang under Roof ALTERNATE span loadift TJ-Pro Railing 65 Any Passed Span I Able moment was increased for r.pstltvo member usage. - Oe8sccn Criteria: STANDARD(LL: U480, TL:IJ240). Additional checks follow. l..ft ovsrtari(W 0.2k, TL:21.1240). Deflection anaIyss Is based on composite uctan with single layer or the appropriate span-rated, GLUED & NAILED wood decking Bracaig(Lu): Al compression edges (top and bottom) must be braced at 4'8" o/c unless detailed othe!wic.. Proper attachment and pcsslsoning of lataral bracing is required to achieve member - TP* load condo considered in this design kidud. Aitemste member loading REPAIR NOTES A hole 7' high by IO-I, wide ha be., cut in the web too close to the support. 5e pcs I. Re$r as falkxa5; I, Romove pipes * wires from the hole hdixted dxwe. Remove the stW -1/4' thick Thvber5trax Rlrv, joist From the side of the joist. Pack web with 5/V thick 058 sheathing 15p Rating 32/241 an me face. 'Tack' shwthFq In p1e using (2) 6d ba nails per piece. Attach-me layer of 1-1/4' thick ThrarStrmd 1.3E reinforca'nertt an me Face. Join r&rtfcrcw,t to tap t bottom flarign using me row of 12d bmi rolls (0.125' dia. x 3-1/4') at 6 oc into each flmge md (3) rows of 6d box nails driven into the ueb/king anambly at 6' ac. 6. Re1nftarcent/pac3dng may be placed on either Face of the Joist. TJl/Pr°'-20 JOIST THICK IJSB PACKING /4' THICK TimberStrand 1.31E REINFORCEMENT PROJECT INFORMATION Residdal Remodel at 1370 PIne Avenue Cartsbed, CA Ron Savanna Sev.nno Con*uction, Inc OPERATOR INFORMATION: True Joist Corp., A Weyerhaeuser Business Teny Mekor, P.E. 300 Carlsbad Village Drmve, Suite #216 Carlsbad, CA 92008 Ph: 760-434.3374 Fx:760-434-3373 Governing 8UIdlng Code: UBC-97 ICBO Approval: PFC-4354, ER4979 0 2000 by me Jolt, I W4y.ms.*el Bucin.u. Pt', 1J.Pro and TJ- zrg are tr0er,eice og Irija oist Jsi and Ps,el,nOas reered trademeft of tn,e Jdst rrgson &con-t. OWSdOI0 a a roi,riid tr.decrun at Simpson St-T,e Company inc \TJS(rlrN1npia1 .se49FJ-1.iie 10/23/2000 13:59 E19214243 SOUTH CUAST STRUCTL PAGE Ui 00, 00, 56 EW V Wi4i ve5lqo FROM; Viric NutiI AM: 5rWr F ( w; 2 Al lh. FAX (7)- - 0/20/00 : 5aMci RO,.ECI*: 0004 13 DPaRe'ew DP/eapfq'- • Sam, Here are the responses to your 10/16/00 fax for the two issues brought up by the recent job-site Inspection: 1A Qotion, 1. All new shearwalls along Line A shown on sheet 5-2 at the first story need to be upgraded to Typ&2° shearwalls, per the shearwH schedule. The huldowns already shown, HD2A / PHD2, may remain the same, Maintain the Type '1' shearwalls shown along Line A; add a new Type '1' shearwail at the insidof the garage along Line A. This new Type 1 sheatwall is to be 4.0 ft long, and no holdowas are required. It should be located as dose to Line 3 as possible. (Calculations enclosed) lB Since the building paper & stucco mesh are already attached to the building, Mike & I looked at our calculations again. Our Initial calculations were conservative in that we used an R fdctor of 4.5. When only wood-sheathed shearwalls are utilized (which this building has), we are allowed to use an R factor of 5.5. By recalculating these shearwalls with this reduced loading, the twoiemalnfnçtType 2' shearwalls are sçtent. (This reduced shearwall calculation Is enclosed). - Therefore, n9l having the 3 & shearwalt at the entry area shown on sheet S-3 at Line 4 Is structurally acceptable Please review, and call our office should you have any questions. Respectfully, PiZL9k Vince Nutile, P.E. 21/5 5, Paw Avow Ji& 200 5ai Pieqz 6A 92//C i'k (6/9) 29/-4221 fax' (619) 79/-474 1/23/2 13:59 6182914243 SOUTH COAST STRUCTL PAGE 02 - -JOB QHFFT NO. OF - 614.LA Ai-J SOUTH COAST - STRUCTURAL DESIGN CALCULATED BY __________ CHECKED BY. DATE._______________ SCALE i (-s) 'OOQ 3 50 r-r o wvzq?P2. R1DLU4E''A iii.t &A 91~101 ESS/0N4 - 2•? No, 4352 - J - Ex p 6 0- 2 LJ,LL. LE 4':EduIgD pliz ¶rF U -41 5 : 2SF I L9 q Z1 L 04 ac; all te pFN')7.6 Ila - 10/23/2000 13:55 5192814243 SOUTH COAST STRUCTL PAGE @3 5OL1 60A51' 5V[rfU%00, Pool %N To. Wric$ 001M OM: Va l'jtle AflN 5am Wrt4it PA6E5 ( Mudirp cover) Ffr (7C) 25-l460 AJ 0/20/00 P?DXCf 00048 tht ] Paw D flr.se Ca D M,e Rep (q Sam, This letter is in response to your 10/19/00 fax. At the upper roof level of LIne 2, the shearwall at that area has been designed to be a Type '1" sheatwall that Is 6-6" long. The gable truss above the double top plate is only required to have Type 11' shearwall sheathing and nailing directly above the designated shearwall. The top chord of the gable truss shall have continuous roof sheathing boundary nailing (per structural details), so the top chord is sufficient to act as a collector member, Please call our office should you have any questions. rTlI Vince Nutile, P.E. - - -.'--' - -- -__ - -LU No. 4352 21/0 5a'i rVw Awm, e 2X 5M 1'Iez CA 921I0 7 V1,-r. 61455 1170 TO 176725253 INSPEMON SRULCES cpX NO. 7W, 737 0898 Oct. ze i * ' !III - -. CARL. SCHMIDT . 1be. SPECAk PCR P. Q.3g- 7*&13 tQ,C69211284a3 ie (619) 855922 ffi5AhILA 04"-, coR. _/3 -. ce src 1;oo cnv:______________ PBIT # : _ '*d IL2 PLAN RIE TYPE OF OSERVA11ON& MSONWL REI N F O R C E D C O N C P E 1 E _ F I E L D W N G _ E 1 Y PRESTRESSED CONCIiETL.. SHOP W E L N G _ B O N G r % s wopciNG STEEL_ RPEPROOFING SAMPLES' NUMBER:_ TYPE: Mrtt*; k&1U: JOJ1.04 -: - A,'Lk T! j r..A IkY - aw, - Snotjre of $peckg Inwictor 44 r,r,7 i IS-1 1p T0TL E.32 CARL SCHMIDT - For- REGISTERED SPECLAL INSPECTOR P.O. Box 178403 San {)ego, CA 92177-8403 Phone (619) 855-9252 SPECIAL INSPECTION REPORT PROJECT: JOB START: //--10 0 ADDRESS: /37 /0/',-.k 4vt JOB STOP: 0 Oily': (7PrrId,4d PERMIT #: CS14,P lYi 7 PLAN FILE #: TYPE OF OBSERVATIONS: MASONRY_ REINFORCED CONCRETE_ FIELD WELDING_ EPDX'( PRESTRESSED CONCRETE_ SHOP WELDING_ BOLTING_ REINFORCING STEEL_ FIREPROOFING MPLES: NUMBER: TYPE: MdeciaIDegn Mix Numbec'PSI: Inspection Date: / /1- — \/i. A ,t Lwolt% Fr Iôk d- (/,M4 +Qf - 4 i le - L J (a p F (-Lcr- - ,or;,,c ch ô, *ii &jd S 'MDRI( INSPECTED CONFOIIS WITH APPROVED PLANS AND SPECIFICATIONS UNLESS OTHERWISE NOTED I k)' lJ,J ci Project Billing information: Print Name Certflcation# - Phbnë: ( ) Fax:( Signature of Special Inspector ''iPInformation Ltf..!JTo Build On Engineering • Consulting • Testing August 16, 2000 Mr. Guy Sabala & Mrs. Anne Sabala 1370 Pine Avenue Carlsbad, California 92008 Subject: Geotechnical Observation of Footing Excavations Project: Proposed Second-Story Addition to Sabala Residence 1370 Pine Avenue Carlsbad, California PSI Project No. 062-95083 References: Professional Service Industries, Inc., 1999, Limited Geotechnical Exploration, Proposed Second-Story Addition to Sabala Residence, 1370 Pine Avenue, Carlsbad, California, PSI Project No. 062-95083, dated August 23, 1999. Wright Design, 2000, Foundation Plan and Details, Sabala Addition, 1370 Pine Street, Carlsbad, CA 92008, Sheets S-i and S-4, dated April 10, 2000. Dear Mr. & Mrs. Sabala: In accordance with your request, a representative of Professional Service Industries, Inc. (PSI) has observed the excavations for the proposed foundations at the subject site. Our services have been performed pursuant to the General Conditions contained in PSI Proposal No. 062-130 dated August 2, 1999. Based on our observations, the foundation excavations appear to extend to the minimum embedments and widths and into adequate bearing strata as recommended in our referenced report. Our observations also indicate that the bearing soils appear to possess a very low expansion potential and are generally consistent with those geotechnical conditions discussed in our referenced report. Prior to placement of concrete, the footing excavations should be cleared of any loose soil and debris. We appreciate this opportunity to be of service to you. If you have any questions or need further information, please do not hesitate to contact us. - Respectfully submitted, Professional Service Industries, Inc. William R. Morrison, RGE 2468 Regional Geotechnical Engineer 95083 fig d.iOFESSio. No. ZIT1 a: Exp.12I3i- :o Professional Service Industries, Inc. • 6867 Nancy Ridge Drive, Suite E SanT Phone 858/45-0544 • Fax 858/455-1170 EsGil Corporation In Partnership with government for Building Safety DATE: June 7, 2000 U APPL ANT JURIS. JURISDICTION: Carlsbad U REVIEWER U FILE PLAN CHECK NO.: 00-1427 SET: III PROJECT ADDRESS: 1370 Pine Ave. PROJECT NAME: Addition and remodel for the Sabala residence The plans transmitted herewith have been corrected where necessary and s u b s t a n t i a l l y c o m p l y with the jurisdiction's building codes. The plans transmitted herewith will substantially comply with the juris d i c t i o n ' s b u i l d i n g c o d e s when minor deficiencies identified below are resolved and checked by build i n g d e p a r t m e n t s t a f f . LI The plans transmitted herewith have significant deficiencies identified o n t h e e n c l o s e d c h e c k l i s t and should be corrected and resubmitted for a complete recheck. The check list transmitted herewith is for your information. The plans are be i n g h e l d a t E s g i l Corporation until corrected plans are submitted for recheck. The applicant's copy of the check list is enclosed for the jurisdiction to for w a r d t o t h e a p p l i c a n t 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 be e n c o m p l e t e d . Person contacted: Telephone #: Date contacted: (by: ) Fax #: Mail Telephone Fax In Person REMARKS: Applicant shall provide a "Special Inspection Program" to the B u i l d i n g O f f i c i a l . I! By: Sergio Azuela Enclosures: Esgil Corporation H E-] GA DMB LIEJ EPC 5/31 trnsmthdot 9320 Chesapeake Drive, Suite 208 • San Diego, California 92123 • (858) 560-1468 • Fax (858) 560-1576 EsGil Corporation In Partnership with government for Bui[41ing Safety DATE: May 18, 2000 LI APPLi1qANT JURIS. JURISDICTION: Carlsbad LI PLAN REVIEWER LI FILE PLAN CHECK NO.: 00-1427 SET: H PROJECT ADDRESS: 1370 Pine Ave. PROJECT NAME: Addition and remodel for the Sabala residence 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: Sam Wright 1287 Buena Vista Way, Carlsbad, CA 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: Sam Wright N. H.') Telephone #: (760) 213-1460 Date'i:Sl:0ô (by: Fax #: Mail ----Telephone,,-' Fax In Person LII REMARKS: By: Sergio Azuela Enclosures: Esgil Corporation LIGA IJMB EEJ LIPC 5/11 trnsmtl.dot 9320 Chesapeake Drive, Suite 208 • San Diego, California 92123 • (858) 560-1468 • Fax (858) 560-1576 Carlsbad 00-1427 II May 18, 2000 RECHECK PLAN CORRECTION LIST JURISDICTION: Carlsbad PROJECT ADDRESS: 1370 Pine Ave. DATE PLAN RECEIVED BY ESGIL CORPORATION: 5/11 REVIEWED BY: Sergio Azuela PLAN CHECK NO.: 00-1427 SET: II DATE RECHECK COMPLETED: May 18, 2000 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 disabled access. 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 or other departments. 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. Please make all corrections on the original tracings and submit two new sets of prints to: Esgil Corp. or to the bldg. dept. of the juris. To facilitate rechecking, please identify, next to each item, the sheet of the plans upon which each correction on this sheet has been made and return this sheet with the revised plans. The following items have not been resolved from the previous plan reviews. The original correction number has been given for your reference. In case you did not keep a copy of the prior correction list, we have enclosed those pages containing the outstanding corrections. Please contact me if you have any questions regarding these items. 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 on the plans. Have changes been made not resulting from this list? cJYes No Carlsbad 00-1427 II May 18, 2000 1. Please make all corrections on the original tracings, as requested in the correction list. Submit three sets of plans for commercial/industrial projects (two sets of plans for residential projects). For expeditious processing, corrected sets can be submitted in one of two ways: 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. 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. 2. Plans, specifications and calculations shall be signed and sealed by the California state licensed engineer or architect responsible for their preparation, for plans deviating from conventional wood frame construction. Specify expiration date of license. (California Business and Professions Code). Structural plans shall be seated and signed by the engineer responsible of the preparation of the structural calculations. 3. On the cover sheet of the plans, specify any items requiring special inspection, in a format similar to that shown below. Section 106.3.2. REQUIRED SPECIAL INSPECTIONS In addition to the regular inspections, the following checked items will also require Special Inspection in accordance with Sec. 1701 of the Uniform Building Code. ITEM REQUIRED? REMARKS SOILS COMPLIANCE PRIOR TO YES SOILS REPORT FOUNDATION INSPECTION EXPANSION/EPDXY ANCHORS YES S-PLANS 4. 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 form. Carlsbad 00-1427 II May 18, 2000 27. Provide construction details and specifications for any fire place chimney extension. Additional corrections may follow. Provide ICBO # for the existing pre-fabricated Fireplace, and also clearly specify on the plans that the chimney extension shall be in accordance with the ICBO # and the manufacturer's recommendations. If you have any questions regarding these plan review items, please contact Sergio Azuela at Esgil Corporation. Thank you. EsGil Corporation In Partnership with Government for 93ui(1ing5afet9 DATE: April 28, 2000 JURISDICTION: Carlsbad PLAN CHECK NO.: 00-1427 PROJECT ADDRESS: 1370 Pine Ave. SET: I U PLAN REVIEWER U FILE PROJECT NAME: Addition and remodel for the Sabala residence 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: Sam Wright 1287 .gonp Vista Way, Carlsbad, CA 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: Sam Wright Telephone #: (760) 213-1460 Date contacted: 5_166 (by:) Fax #: Mail vTelephone '- Fax In Person REMARKS: By: Sergio Azuela Enclosures: Esgil Corporation F-] GA Li MB []EJ []PC 4/18 trnsmtl.dot 9320 Chesapeake Drive, Suite 208 • San Diego, California 92123 • (858) 560-1468 • Fax (858) 560-1576 Carlsbad 00-1427 April 28, 2000 PLAN REVIEW CORRECTION LIST SINGLE FAMILY DWELLINGS AND DUPLEXES PLAN CHECK NO.: 00-1427 JURISDICTION: Carlsbad PROJECT ADDRESS: 1370 Pine Ave. FLOOR AREA: Existing dwelling 1,620 SF STORIES: 2 New dwelling 1,225 SF existing Garage 485 SF HEIGHT: 22 FT REMARKS: DATE PLANS RECEIVED BY DATE PLANS RECEIVED BY JURISDICTION: 4/14/00 ESGIL CORPORATION: 4/18 DATE INITIAL PLAN REVIEW PLAN REVIEWER: Sergio Azuela COMPLETED: April 28, 2000 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 ordinance 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. Present California law mandates that residential construction comply with the 1998 edition of the California Building Code (Title 24), which adopts the following model codes: 1997 UBC, 1997 UPC, 1997 UMC and 1996 NEC (all effective 7/1/99). The above regulations apply to residential construction, regardless of the code editions adopted by ordinance. 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 copy) where each correction item has been addressed, i.e., plan sheet number, specification section, etc. Be sure to enclose the marked up list when you submit the revised plans. Carlsbad 00-1427 April 28, 2000 . PLANS 1. Please make all corrections on the original tracings, as requested in the correction list. Submit three sets of plans for commercial/industrial projects (two sets of plans for residential projects). For expeditious processing, corrected sets can be submitted in one of two ways: 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. 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. 2. Plans, specifications and calculations shall be signed and sealed by the California state licensed engineer or architect responsible for their preparation, for plans deviating from conventional wood frame construction. Specify expiration date of license. (California Business and Professions Code). Structural plans shall be sealed and signed by the engineer responsible of the preparation of the structural calculations. 3. On the cover sheet of the plans, specify any items requiring special inspection, in a format similar to that shown below. Section 106.3.2. . REQUIRED SPECIAL INSPECTIONS In addition to the regular inspections, the following checked items will also require Special Inspection in accordance with Sec. 1701 of the Uniform Building Code. ITEM REQUIRED? REMARKS SOILS COMPLIANCE PRIOR TO YES SOILS REPORT FOUNDATION INSPECTION EXPANSION/EPDXY ANCHORS YES S-PLANS 4. 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 form. Carlsbad 00-1427 April 28, 2000 STAIRWAYS, AND RAILINGS 5. Guardrails (Section 509.1): Shall have a height of 36". Shall be detailed showing adequacy of connections to resist the horizontal force prescribed in Table 16-B. Openings between railings shall be less than 4". The triangular openings formed by the riser, tread and bottom element of a guardrail at a stair shall be less than 6". 6. Handrails (Section 1003.3.3.6): Handrails and .extensions shall be 34" to 38" above nosing of treads and be continuous. The handgrip portion of all handrails shall be not less than 1-1/4 inches nor more than 2 inches in cross-sectional dimension. Handrails projecting from walls shall have at least 1-1/2 inches between the wall and the handrail. Ends of handrails shall be returned or shall have rounded terminations or bends. 7. Provide details of winding stairway complying with Section 1003.3.3.8.2: Minimum tread is 6 inches at any point and minimum 9 inches at a point 12 inches from where the treads are narrowest. Minimum width is 36 inches. . ROOFING 8. Specify on the plans the following information for the roof materials, per Section 106.3.3: Manufacturer's name. Product name/number. ICBO approval number, or equal. 9. Per local ordinance, a Class "A" roof is required. 10. Show the required ventilation for attics (or enclosed rafter spaces formed where ceilings are applied directly to the underside of roof rafters). The minimum vent area is 1/150 of attic area (or 1/300 of attic area if at least 50% of the required vent is at least 3 feet above eave vents or cornice vents). Show area required and area provided. Section 1505.3. Carlsbad 00-1427 April 28, 2000 11. Where eave vents are installed, insulation shall not block the free flow of air. A minimum of 1" of air space shall be provided between the insulation and the roof sheathing. To accommodate the thickness of insulation plus the required 1" clearance, member sizes may have to be increased for rafter-ceiling joists. Section 1505.3. 12. Note on the plans: "Attic ventilation openings shall be covered with corrosion-resistant metal mesh with mesh openings of 1/4- nch in dimension." Section 1505.3. GARAGE AND CARPORTS 13. Garage requires one-hour fire protection on the garage side of walls and ceiling common to the dwelling. Table 3-B, Section 302.4. Clearly show the 5/8" type "X" on Section C/Al. . FOUNDATION REQUIREMENTS 14. Investigate the potential for seismically induced soil Iiquefation and soil instability in Seismic Zones 3 and 4. This does not apply to detached, single- story dwellings. Section 1804.5 15. Note on the plan the soils classification, whether or not the soil is expansive and note the allowable bearing value. Section 106.3.3. 16. The soils engineer recommended that he/she review the foundation excavations. Note on the foundation plan that "Prior to the contractor requesting a Building Department foundation inspection, the soils engineer shall advise the building official in writing that: The building pad was prepared in accordance with the soils report, The utility trenches have been properly backfilled and compacted, and The foundation excavations, the soils expansive characteristics and bearing capacity conform to the soils report." 17. Provide a letter from the soils engineer confirming that the foundation plan, grading plan and specifications have been reviewed and that it has been determined that the recommendations in the soils report are properly incorporated into the construction documents (required by the soil report - page 14). 18. Show foundation bolt size and spacing. Foundation bolt size and spacing for shear walls must be clearly shown on the foundation plan. Section 1806.6. Shear wall schedule was not included in the plans. . FRAMING 19. Specify truss identification numbers on the plans. Carlsbad 00-1427 April 28, 2000 20. Detail shear transfer connections, including roof and floor diaphragms, to shear walls. Section 2315. Shear wall schedule was not included in the plans. 21. Specify nail size and spacing for all shear walls. Shear wall schedule was not included in the plans 22. Show location of attic access with a minimum size of 22"x30", unless the maximum vertical headroom height in the attic is less than 30". Access must be provided to each separated attic area, shall be located in a hallway or other readily accessible location and 30" headroom clearance is required above the opening. Section 1505.1. MECHANICAL (UNIFORM MECHANICAL CODE) 23. Note on the plans that the FAU closet or alcove must be 12 inches wider than the furnace or furnaces being installed. UMC Section 304.7. 24. Show source of combustion air to furnace, per Chapter 7, UMC. Show the location and size of the combustion air openings. 25. Specify on the plans the following information for the fireplace(s), per Section 106.3.3: Manufacturer's name. Model name/number. ICBO approval number, or equal. Show height of chimney above roof per I.C.B.O. approval or UBC Table 31-B. Note on the plans that approved spark arrestors shall be installed on all chimneys. UBC, Section 3102.3.8. . ELECTRICAL (NATIONAL ELECTRICAL CODE) 26. Show on the plan the amperage of the electrical service, the location of the service panel and the location of any sub-panels. If service is over 200 amps, submit single line diagram, panel schedule and load calculations. . MISCELLANEOUS 27. Provide construction details and specifications for any fire place chimney extension. Additional corrections may follow. To speed up the review process, note on this list (or a copy) where each correction item has been addressed, i.e., plan sheet, note or detail number, calculation page, etc. Carlsbad 00-1427 April 28, 2000 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: Yes El No fJ The jurisdiction has contracted with Esgil Corporation located at 9320 Chesapeake Drive, Suite 208, San Diego, California 92123; 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 Sergio Azuela at Esgil Corporation. Thank you. Carlsbad 00-1427 April 28, 2000 SPECIAL INSPECTION PROGRAM ADDRESS OR LEGAL DESCRIPTION: PLAN CHECK NUMBER: J+?__J OWNER'S NAME: 4+4- I, as the owner, or agent of the owner (contractors may not employ the special inspector), certify that I, or the architect/engineer 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 the site listed above. UB C Section 106.3.5. Signed I, as the engineer/architect of record, certify that I have prepared ti inspection program as required by UBC Section 106.3.5 for the cc the site listed above. Signed 1. List of work requiring special inspection: Soils Compliance Prior to Foundation Inspection Structural Concrete Over 2500 PSI E Prestressed Concrete Structural Masonry D Designer Specified O Field Welding High Strength Bolting Expansion/Epoxy Anchors Sprayed-On Fireproofing O Other 2. Name(s) of individual(s) or firm(s) responsible for the special inspections listed above: 3. Duties of the special inspectors for the work listed above: ihbe&M*hJ El r--Xl2iMb~Qp Special inspectors shall check in with the City and present their credentials for approval prior to beginning work on the lob site. Carlsbad 00-1427 April 28, 2000 VALUATION AND PLAN CHECK FEE JURISDICTION: Carlsbad PLAN CHECK NO.: 00-1427 PREPARED BY: Sergio Azuela DATE: April 28, 2000 BUILDING ADDRESS: 1370 Pine Ave. Sabala residence addition and remodel BUILDING OCCUPANCY: R-3 & U-i TYPE OF CONSTRUCTION: VN BUILDING PORTION BUILDING AREA (Sq. Ft.) VALUATION MULTIPLIER VALUE ($) Dwelling addition 1,225 98.4 120,540 Dwelling remodel 1,620 28 45,360 Deck addition 110 14.4 1,584 Air Conditioning 1,225 3.6 4,410 Fire Sprinklers TOTAL VALUE 171,894 199 UBC Building Permit Fee Z Bldg. Permit Fee by ordinance: $ 873.07 199 UBC Plan Check Fee Z Plan Check Fee by ordinance: $ 567.50 Type of Review: Z Complete Review Structural Only Hourly Repetitive Fee Applicable Other: Esgil Plan Review Fee: $ 454.00 Comments: Sheet 1 of 1 macvalue.doc 5100 of Carlsbad BUILDING PLANCHECK CHECKLIST DATE: PLANCHECK NO.: CB&(-)/ BUILDING A6DRSS: -6 7c) Are PROJECT DESCRIPTION: ASSESSOR'S PARCEL NUMBER: EST. VALUE: ENGINEERING DEPARTMENT APPROVAL 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. DENIAL 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: IA Right-of-Way permit is required prior to construction of the following improvements: By: Date: By: Date: FOR OFFICIAL USE ONLY ENGINEERING AUTHORIZATION TO ISSUE BUILDING PERMIT By Date II Dedication Application LI Dedication Checklist LI Improvement Application El Improvement Checklist LI Future Improvement Agreement LI Grading Permit Application LI Grading Submittal Checklist LI Right-of-Way Permit Application ENGINEERING DEPT. CONTACT PERSON Name: JOANNE JUCHNIEWICZ City of Carlsbad Address: 1635 Faraday Avenue, Carlsbad, CA 92008 Phone: (760) 602-2775 CFD INFORMATION Parcel Map No: Lots: Recordation: Right-of-Way Permit Submittal Checklist Carlsbad Tract: and Information Sheet LI Sewer Fee Information Sheet A-4 Carlsbad, CA 92008-7314 • (760) 602-2720 • FAX (7601A22-8562 orm JJ.doc 1 ~/ U c2 BUILDING PLANCHECK CHECKLIST 5 3 SITE PLAN 2NDJ 3RDI 1. Provide a fully dimensioned site plan drawn to scale. Show: North Arrow D. Property Lines Existing & Proposed Structures E. Easements Existing Street Improvements F. Right-of-Way Width & Adjacent Streets G. Driveway widths 2. Show on site plan: A. Drainage Patterns Building pad surface drainage must maintain a minimum slope of one percent towards an adjoining street or an approved drainage course. 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 3. Include on title sheet: A. Site address B.. Assessor's Parcel Number C. Legal Description For commercial/industrial 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 DISCRETIONARY APPROVAL COMPLIANCE Li Li Li 4a. Project does not comply with the following Engineering Conditions of approval for ProjectNo.________________________________________________________ Li Li Li 4b. All conditions are in compliance. Date: H:\W0RD\D0CS\CHKLS1\BU11difl9 Plantheck Cklst BP000I Form JJ.dOC 2 Rev. 12F26196 / BUILDING PLANCHECK CHECKLIST DEDICATION REQUIREMENTS ND"' 3RD/ ' L 5. Dedication for all street Rights-of-Way adjacent to the building site and any storm F ' drain or utility easements on the building site is required for all new buildings and for remodels with a value at or exceeding $ , pursuant to Carlsbad Municipal Code Section 18.40.030. Dedication required as follows: Dedication required. Please have a registered Civil Engineer or Land Surveyor prepare the appropriate legal description, together with an 8 1A" 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 rot be accept by mail or fax. Dedication completed by: Date: IMPROVEMENT REQUIREMENTS All needed public improvements upon and adjacent :o the building site must be r constructed at time of building construction whenever the value of the construction exceeds $ , pursuant to Carlsbad Municipal Code Section 18.40.040. 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 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: Construction of the public improvements may be deferred pursuant to Carlsbad Municipal Code Section 18.40. Please submit a resent property title report or current grant deed on the property and processing fee of $_ 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: H:\WORDDOCS\C)1KLST\8UiIdifl9 Plaricheck Cklst BP0001 Form JJ.doc .91 Rev. 12126/96 BUILDING PLANCHECK CHECKLIST sti' 2ndl 3rdl U U U 6c. Enclosed please find your Future Improvement Agreement. Please return agreement signed and notarized to the Engineering Department. Future Improvement Agreement completed by: Date: U U U 6d. No Public Improvements required. SPECIAL NOTE: Damaged or defective improvements found adiacent to building site must be repaired to the satisfaction of the City Inspector prior to occupancy. GRADING PERMIT REQUIREMENTS The conditions that invoke the need for a grading permit are found in Section 11.06.030 of the Municipal Code. U U U 7a. Inadequate information available on Site Plan to make a determination on grading requirements. Include accurate grading quantities (cut, fill import, export). U U U 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 Grading Permit must be issued and rough grading approval obtained prior to issuance of a Building Permit Grading Inspector sign off by: Date: U U U 7c. Graded Pad Certification required. (Note: Pad certification may be required even if a grading permit is not required.) U U 7d.No Grading Permit required. U U U 7e.If grading is not required, write "No Grading" on plot plan. MISCELLANEOUS PERMITS / U U 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, tieing into public storm drain, sewer and water utilities. Right-of-Way permit required for: BUILDING PLANCHECK CHECKLIST H:WORD\DOCSCHKLST\8U1Idifl9 Plantheck Cklst BP000I Form JJ.doc Rev. 12/26196 D 2' 3rdl 9. A SEWER PERMIT is required concurrent with the building permit issuance. The fee is noted in the fees section on the following page. Li LI 10. 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) 435-2722, extension 153, for assistance. Industrial Waste permit accepted by: Date: LI LI 11.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 7/ occurs first. LI LI 12. LIired fees are attached No fees required LI LI LI 13. Additional Comments: H:\WORO00CS\CHKLSTBUdifl9 Plandleck 0(1St BP0001 Fonn JJ.dOC 5 Rev. 12/26/96 . >. >.. . C14 Cn - o Q) . . c. a . C) .c 0 0 cc .5 0 Q IL - PLANNING DEPARTMENT BUILDING PLAN CHECK REVIEW CHECKLIST Plan Check No. CB (1 Address r3' /iIi Ao Planner Grea Fisher Phone (760) 602-4629 APN: Type of Prect & Use: cR2— N Zoning: General Plan: CFD (in/nut) # _Date of participation: Circle One (For non-residential development: Type of land used created by this permit:______ et Project Density:DU/AC Facilities Management Zone: Remaining net dev acres:______ Legend: Item Complete Item Incomplete - Needs your action F-1 Environmental Review Required: YES NO TYPE DATE OF COMPLETION: Compliance with conditions of approval? If not, state conditions which require action. Conditions of Approval: Discretionary Action Required: YES NO TYPE APPROVAL/RESO. NO. DATE PROJECT NO. OTHER RELATED CASES: Compliance with conditions or approval? If not, state conditicns which require action. Conditions of Approval:________________________________________________ k F Fill Coastal Zone Assessment/Compliance Project site located in Coastal Zone? YES____ NO____ CA Coastal Commission Authority? YES____ NO____ If California Coastal Commission Authority: Contact them at - 3111 Camino Del Rio North, Suite 200, San Diego CA 92108-1725; (619) 521-8036 Determine status (Coastal Permit Required or Exempt): Coastal Permit Determination Form already completed? YES NO____ If NO, complete Coastal Permit Determination Form now. Coastal Permit Determination Log #: Follow-Up Actions: Stamp Building Plans as "Exempt" or "Coastal Permit Required" (at minimum Floor Plans) Complete Coastal Permit Determination Log as needed. H:\ADMIN\COUNTER\BldgPlnchkRevChklst fl Inclusionary Housing Fee required: YES ____ NO (Effective date of Inclusionary Housing Ordinance May 21, 1993.) Data Entry Completed? YES NO (A/P/Ds, Activity Maintenance, enter CB#, toolbar, Screens, Housing Fees, Construct Housing YIN, Enter Fee, UPDATE!) Site Plan: Provide a fully dimensional site plan drawn to scale. Show: North arrow, I ' property lines, easements, existing and proposed structures, streets, existing Street improvements, right-of-way width, dimensional setbacks and existing topographical lines. Provide legal description of property and assessor's parcel number. Zoning: I1 1. Setbacks: Front: Required ____ Shown __ \ Interior Side: Required Shown 8 Street Side: Required - Shown -- Rear: Required / ' Shown f' 2. Accessory structures s: Front: Required Shown lnterio)4d Required Shown St Side: Required Shown ear: Required Shown Structure separation: Required Shown LIII 3. Lot Coverage: Required Shown LII LI 4. Height: Required Shown LI LI 5. Parking: Spaces Required Shown Guest Spaces Required Shown LI LI LI Additional Comments______________________________________________________ OK TO ISSUE AND ENTERED APPROVAL INTO COMPUTER DATE_________ H:\ADMIN\COUNTER\BldgPInchkRevChkist MAY-15-2000 1145 AM 9AMUEL.B.I4RICHT 760 944 1541 P.02 r,P=V.5A%8WP1;F'8 InformationTo Build On lngln..dng ' C.niulUng • lb.th,g May 12,2000 Mr. Guy Sabala & Mrs. Anne Sabala 1370 Pine, Avenue Carlsbad, California 92008 Subject: Geotechnical Review of Foundation Plans and Details Project: Proposed Second-Story Addition to Sabala Residence 1370 Pine Avenue Carlsbad, California PSI Project No. 062-95083 References: Professional Service Industries, Inc., 19, Limited Geotechnical Exploration, Proposed Second-Story Addition to Sabala Residence, 1370 Pine Avenue, Carlsbad, California, PSI Project No. 0(52-95083, dated August 23, I999 Wrih1 Dcsin, 2000, Foundation Plan and Details, Sabala Addition, 1370 Pine Street, Carlsbad, CA 92008, Sheets S-i and S-4, dated April 10, 2000. Dear Mr. ,& Mrs. Sabala: Professional Sin-vice Industries, Inc. (PSI) has perfoiiiied a gcotcchnical review of the referenced foundation plan and details for the proposed second-story building addition at the subject site in Carlsbad, California. The purpose for our review is to verify that the plan and details have been prepared in general accordance with geotcchnical considerations presented in our referenced geotechnical report. It is our understanding that no grading is planned as part of the proposed project and as such no grading plan has been submitted for review. Based on our review, the referenced foundation plans and details for the proposed development appear to properly incorporate the recommendations presented in our referenced geotechnical report. We note that our report recommends that if moisture sensitive flooring areas are planned upon new slabs-on-grade, the slabs should be underlain by at least 2 inches of clean sand over a 6- mil Visqucen vapor barrier, which is in turn underlain by at least 2 inches of capillary break material consisting of coarse sand, gravel or crushed rock. Other considerations for Visquccn placement are presented in our referenced report. proløsslonal 5&vjcg Industries, Inc. • 6867 Nancy R1de Drive, Suite C • San Olcgo, CA 2t1 • Phone 8.55/455.0544 • Fax 858/455-11170 MAY-15-2000 1146 AM 9AMUEL..B..WRIGI4T 760 944 1541 P.03 M & Mrs. Sabala May 12, 2000 Page 2 PSI Project No. 062-95083 We appreciate this opportunity to be of service to you. If you have any questions or need further information, please do not hesitate to contact us. Respectfully submitted, Professional. Service Industries, Inc. William R. Morrison, ROE 246 Regional Geotechnical Engineer 9(153.rcv Wright 15tign, Ann! Mr. Sam Wright MAY-15-2000 11:46 AM SMUEL.WRIGHT 760 944 1541 P.04 f11nforination PIE ToBuildOn Englnsjtng $ Consulting • 7hat1ng May 12. 2000 Mr. Guy Sabala & Mrs Anne Sabala 1370 Pine Avenue Carlsbad, California 92008 Subject; Addendum to Limited Geotechnical Ecploration Report Project; Proposed Second-Story Addition to Sabala Residence 1370 Pine Avenue Carlsbad, California PSI Project No. 062-95083 References: Professional Service Industries, Inc., 1999, Limited Geotechnical Exploration, Proposed Second-Story Addition to Sabala Residence, 1370 Pine Avenue, Carlsbad, California, PS! Project No. 062-95083, dated August 23, 1999. Dear Mr, & Mrs. Sabala: Professional Service Industries, Inc. (PSI) has prepared this addendum to our referenced report. The purpose of this addendum is to address the subject site's susceptibility to liquefaction, given a design earthquake along a nearby late Quaternary fault. Our referenced subsurface exploration reveals that the project site is underlain by materials comprising the Pleistocene-aged Bay Point Formation. 00f etperienee with these materials in the general vicinity of the site indicates that the Bay Point Formation is weakly to moderately indurated and is not typically susceptible to liquefaction. In addition, no groundwater was encountered in any of our exploratory excavations during our referenced exploration. Based on the geotechnical conditions encountered during our referenced exploration including: area seismicity; the nature of the geologic materials underlying the site; and the anticipated lack of a static, near. surface groundwatcr table, it is our opinion that the site possesses a low risk potential for liquefaction, given a design earthquake along a nearby late Quaternary fault. All othcr flings, recommendations, terms and conditions presented in our r€fèrenced report remain applicable to the project and are included by reference herein. We appreciate this opportunity to be of service to you. If you have any questions or need further information, please do not hesitate to contact us. Respectfully submitted, Professio 1 Service Industries, Inc. 'IPA11(1/r,w141 William R. Morrison, RGE 2468 iI 1? No. 2465 Regional Gcc,tvchnical Engineer Exp. 12/3 5O83 add cc: Wright Dcsign, Atm: Mr. Sam Wright ni-. Professional Service Industrls. Inc. 9 667 Nancy Ridge Drive 92121 phone e5e/455-0544 Fix 01455-117O - -- LIMITED GEOTECHNICA.L EXPLORATION PROPOSED SECOND-STORY ADDITION TO SABALA RESIDENCE 1370 PINE AVENUE CARLSBAD, CALIFORNIA f'fl Information h LtfJJToBuildOn L Engineering • Consulting • Testing August 23, 1999 Mr. Guy Sabala & Mrs. Anne Sabala 1370 Pine Avenue Carlsbad, California Re: Limited Geotechnical Exploration Proposed Second-Story Addition to Sabala Residence 1370 Pine Avenue Carlsbad, California PSI File No. 062-95083 Dear Mr. & Mrs. Sabala: Professional Service Industries, Inc. is pleased to submit our Limited Geotechnical Exploration Report for the referenced project. This report includes our results of field and laboratory testing, along with our recommendations for foundation design, and general site development. We appreciate the opportunity to perform this Geotechnical Study and look forward to continued participation during the design and construction phases of this project. If you have any questions pertaining to this report, or if we may be of further service, please contact our office. Respectfully submitted, PROFESSIONAL SERVICE INDUSTRIES, INC. Eduardo Dizon, RCE 5721r'_~ Project Engineer (exp. 12/31/01) ED/C 52618 cal Department N' (. /.N o. 526! Professional Service Industries, Inc. • 6867 Nancy Ridge Drive, Suite E • San Diego, CA 92121 • Phone 619/455-0544 • Fax 619/455-1170 LIMITED GEOTECHNICAL EXPLORATION REPORT Proposed Second-Story Addition to Sabala Residence 1370 Pine Avenue Carlsbad, California PSI File No. 062-95083 PREPARED FOR Mr. Guy Sabala & Mrs. Anne Sabala 1370 Pine Avenue Carlsbad, California August 23, 1999 mm PROFESSIONAL SERVICE INDUSTRIES, INC. TABLE OF CONTENTS Page No. EXECUTIVE SUMMARY .....................................................................1 PROJECT INFORMATION....................................................................2 Project Authorization ..................................................................2 Project Description ..................................................................... 2 Purpose and Scope of Services.......................................................2 SITE AND SUBSURFACE CONDITIONS .................................................3 Site Location and Description........................................................3 Regional Geology ......................................................................3 Foundation and Subsurface Conditions.............................................4 Groundwater Information .............................................................5 SEISMICITY.......................................................................................5 Regional Seismicity ....................................................................5 Seismic Analysis........................................................................5 Earthquake Design Parameters.......................................................6 EVALUATION & RECOMMENDATIONS ...............................................7 Site Preparation ........................................................................7 Foundation Recommendations .......................................................8 Structural Setback ......................................................................9 Floor Slab Recommendations ........................................................9 Lateral Earth Pressures and Resistance ............................................. 10 Pavement Recommendations .........................................................11 CONSTRUCTION CONSIDERATIONS 12 Moisture Sensitive Soils/Weather Related Concerns.............................12 Drainage and Groundwater Considerations........................................12 Excavations .............................................................................13 Trench Backfill ..........................................................................13 REPORT LIMITATIONS ......................................................................14 FIGURES Figure 1: Site Location Map Figure 2: Test Pit Location Map APPENDICES Appendix A: References Appendix B: Exploration Logs Appendix C: Laboratory Test Results Appendix D: Seismic Analysis - Computer Output Appendix E: Standard Guidelines for Grading Projects 1 EXECUTIVE SUMMARY A limited geotechnical exploration of the subsurface conditions has been completed for the proposed second-story addition to the existing residence located at 1370 Pine Avenue in Carlsbad, California. Three exploratory test pits have been excavated and selected soil samples were tested in the laboratory as part of our limited exploration. In general, the subject residence appears to be underlain by soils comprising weathered Baypoint Formation/Topsoil materials, which are mantled by approximately 12 inches of existing fill soils. The weathered formational/topsoil materials were observed in our test pits to consist of dark reddish-brown to medium orangish-brown silty sands with occasional rootlets (SM). These materials were generally observed to be moist to very moist and medium dense at the time of our limited exploration. The encountered fill materials were observed to typically consist of dark brown silty sands with occasional rootlets (SM), which were damp to very moist and loose to medium dense at the time of our limited exploration. Results of our laboratory testing indicate that the encountered upper soils possess a very low expansion potential. Refusal/hard rock materials were not encountered within either of our three exploratory test pits. As noted during our limited subsurface exploration, the encountered portions of the existing building foundation system were observed to have embedments of between 12 and 15 inches below existing site grades, which is within the current industry standards. Since it is not known whether the foundations are adequately reinforced, it is recommended that the suitability of the existing foundations to receive the additional second-story loading be further evaluated by a structural engineer. Based on the results of our limited subsurface exploration, the subsurface conditions at the site generally appear to be suitable for the use of shallow foundations for the support of the proposed structure loads, provided the recommendations contained herein are properly incorporated into the proposed construction. Details related to site development, foundation design, seismicity, and construction considerations are included in subsequent sections of this report. The owner/designer should not rely solely on this Executive Summary and must read and evaluate the entire contents of this report prior to utilizing our engineering recommendations in preparation of design/construction documents. 1370 Pine Avenue, Carlsbad, CA - Pro:ssional Service Industries, Inc. Li 2 PROJECT INFORMATION Project Authorization Professional Service Industries, Inc. (PSI) has completed a limited geotechnical exploration for the proposed second-story addition to the existing residence at 1370 Pine Avenue in Carlsbad, California. Our services were authorized by Mrs. Anne Sabala on August 8, 1999 by signing our pioposal. This exploration was accomplished in general accordance with PSI Proposal No. 062-130 dated August 2, 1999. Project Description Preliminary project information was provided to us by Mr. & Mrs. Sabala on August 2, 1999. Based on our review of the provided information, we understand the proposed construction at the site will include a second-story addition onto the northern portion of the existing structure, an expansion of the existing kitchen, and other associated improvements. In addition, we understand that no site grading is currently planned (beycnd the clearing and grubbing of existing vegetation and surficial debris as necessary). The geotechnical recommendations presented in this report are based on the. provided project information, proposed building locations, and the subsurface materials described in this report. If any of the noted information is incorrect, please inform PSI in writing so that we may amend the recommendations presented in this report if appropriate and if desired by the client. PSI will not be responsible for the implementation of its recommendations when it is not notified of changes in the project. Purpose and Scope of Services The purpose of this limited geotechnical exploration report was to explore the subsurface conditions at the site to enable an evaluation of acceptable foundation systems for the proposed construction. This report briefly outlines the testing procedures, describes the site and subsurface conditions, and presents geotechnical recommendations for foundation design and for general site development. Our scope. of services included the excavation, logging and sampling of three exploratory test pits at the site to depths on the order of 11/2 to 21/2 feet below the existing ground surface, appropriate laboratory testing, and preparation of this geotechnical report. This report briefly outlines the testing procedures, presents available project information, describes the site and subsurface conditions, and presents recommendations regarding the following: 1370 Pine Avenue, Carlsbad, CA Professional Service Industries, Inc. 3 - Grading procedures for site development. - Suitable foundation types, depths, allowable bearing capacities, and an estimate of potential settlement. - Lateral earth pressures for retaining wall design (if proposed). - Comments regarding factors that will impact construction and performance of the proposed construction. Our scope of services did not include an environmental assessment for determining the presence or absence of wetlands, or hazardous or toxic materials in the soil, bedrock, surface water, groundwater, or air on or below, or around this site. Any statements in this report or on the exploration logs regarding odors, colors, and unusual or suspicious items or conditions are strictly for informational purposes. SITE AND SUBSURFACE CONDITIONS Site Location and Description The subject site is located at 1370 Pine Avenue in Carlsbad, California. Current access to the site is off of Pine Avenue which bounds the property to the southeast. The site is also bounded to the northeast, northwest and southwest by existing residential developments. Existing development at the site includes a single-story detached residence of wood-frame and slab-on-grade construction and associated appurtenances. Our observation of the exterior of the residence indicates that the existing foundation system appears to be performing reasonably well. The ground surface elevation at the relatively level site is approximately 120 feet above Mean Sea Level (MSL). The approximate ground surface elevation was estimated from the San Luis Rey, California 7.5 minute Topographic Survey prepared by the U.S. Geologic Survey. Regional Geology The subject site lies within the coastal portion of the Penninsular Ranges Geomorphic Province of California. According to pertinent regional geologic literature, the project site is underlain by Quaternary-aged Terrace Deposits associated with the Baypoint Formation (Kennedy and Tan, 1996). 1370 Pine Avenue, Carlsbad, CA Professional Service Industries, Inc. 4 Foundation and Subsurface Conditions The site subsurface conditions were explored with three exploratory test pits, each directly adjacent to the existing residential structure (see Figure 2 - Test Pit Location Map). The test pits were advanced utilizing manual excavation equipment and representative disturbed and relatively undisturbed soil samples were routinely obtained during the excavation process. Exploration and sampling techniques were accomplished generally in accordance with ASTM procedures. As encountered in our exploratory test pits, the subject residence appears to be underlain by soils comprising weathered Baypoint Formation/Topsoil materials, which are mantled by approximately 12 inches of existing fill soils. The weathered formational/topsoil materials were observed in our test pits to consist of dark reddish-brown to medium orangish-brown silty sands with occasional rootlets (SM). These materials were generally observed to be moist to very moist and medium dense at the time of our limited exploration. The encountered fill soils were - observed to typically consist of dark brown silty sands with occasional rootlets (SM), which were damp to very moist and loose to medium dense at the time of our limited exploration. Results of our laboratory testing indicate a very low expansion potential (UBC 18-2) for the encountered upper soils. Refusal/hard rock materials were not encountered within either of our three exploratory test pits. The existing continuous foundations supporting the residence were observed in our test pits to have embedments of between 12 and 15 inches below existing grade, which is within the current Uniform Building Code Guidelines for footings supporting single-story structure. Our scope of services did not include the evaluation of existing reinforcement (if any) within the footings. As such, PSI cannot comment at this time about whether the existing foundations have been adequately reinforced in accordance with industry standards. J The above subsurface description is of a generalized nature to highlight the major subsurface stratification features and material characteristics. The exploration logs included in the appendix should be reviewed for specific information at the individual test pit locations. These records include soil descriptions, stratifications, penetration resistances, locations of the samples and laboratory test data. The stratifications shown on the exploration logs represent the } conditions only at the actual test pit locations at the time of our exploration Variations may Li occur and should be expected at some distance from the test pits. The stratifications which represent the approximate boundary between subsurface materials and the actual transition may be gradual. The samples which were not altered by laboratory testing will be retained for 60 days from the date of this report and then will be discarded. 1370 Pine Avenue, Carlsbad, CA Professional Service Industries, Inc. Select soil samples were tested in the laboratory to determine materials properties for our geotechnical evaluation. Laboratory testing was accomplished generally in accordance with ASTM procedures. A brief discussion of the laboratory tests performed and the results of our testing are presented in Appendix C. Groundwater Information Groundwater was not encountered within the maximum explored depth of 21/2 feet below the existing ground surface in our exploratory test pits, at the time of our exploration. However, it is possible that transient oversaturated ground conditions at shallower depths could develop at a later time due to periods of heavy precipitation, landscape watering, leaking water lines, or other unforeseen causes. SEISMICITY Regional Seismicity Generally, seismicity within California can be attributed to faulting due to regional tectonic movement. This includes the San Andreas Fault, the Rose Canyon Fault, the offshore segment of the Newport-Inglewood Fault, and most parallel and subparallel faulting within the State. The portion of California which includes the subject site is considered seismically highly active (UBC Seismic Zone 4). Seismic hazards within the site can be attributed to potential groundshaking resulting from earthquake events along nearby or more distant faulting. According to the regional geologic literature, the closest known Late-Quaternary fault is the Rose Canyon Fault located approximately 5.4 miles southwest of the site. Several potentially active and pre-Quaternary faults also occur within the regional vicinity. Currently, the seismological literature presents varying opinions regarding seismicity for nearby potentially active and pre-Quaternary faults. As such, the following Seismic Analysis only considers the effects of active faulting. Seismic Analysis The seismicity of the site was evaluated utilizing deterministic methods for active Quaternary faults within the regional vicinity. According to the Aiquist-Priolo Special Studies Zones Act of 1972 (revised 1994) Quaternary faults have been classified as active faults which show apparent surface rupture during the last 11,000 years (ie., Holocene time). This site is not currently within a mapped Earthquake Fault Zone (Hart and Bryant, 1997). ii 1370 Pine Avenue Carlsbad CA Professional Service Industries Inc 6 Deterministic Analysis - Deterministic seismicity at the site was evaluated with the Eqfault computer program (Blake, 1995), which utilizes a digitized map of known late Quaternary earthquake faults, a catalog of the estimated credible and potential earthquakes for each fault, and a user specified attenuation relationship (Campbell, et. al., 1994). Output from the Eqfault program is presented in Appendix D. Based on our analysis, 18 Late-Quaternary faults were located within a 62 mile radius of the site. The site is subject to a Maximum Credible Earthquake of 6.9 Magnitude along the Rose Canyon Fault located approximately 5.4 miles southwest of the site, with a corresponding Peak Ground Acceleration on the order of 0.39g. The Maximum Credible Earthquake is defined as the maximum earthquake that appears capable of occurring under the presently known tectonic framework. Additionally, the site is subject to a Maximum Probable Earthquake of 5.8 Magnitude, along the offshore segment of the Newport-Inglewood Fault, with its southern terminus located approximately 5 miles northwest of the site, with a corresponding Peak Ground Acceleration of approximately 0.22g. The Maximum Probable Earthquake is defined as the maximum earthquake that is considered likely to occur during a 100-year time interval. Earthquake Design Parameters In accordance with the evaluation summarized in the Seismic Analysis section of this J report, the Peak Ground Acceleration at the site ranges from 0.22g (Probable Earthquake sources) to 0.39g (Credible Earthquake sources). For structural design purposes, a damping ratio not greater than 5 percent of critical damping, and a soil profile type 5D (UBC Table 16-J) J are recommended. Based upon a distance of approximately 8.5 km from the site to the Rose Canyon Fault Zone and the offshore segment of the Newport-Inglewood Fault Zone (Type B 1 seismic sources per the 1997 edition of the Uniform Building Code), near source factors N a= 1.0 and N,=1.06 are recommended for the seismic design of the proposed addition. Other earthquake-resistant design parameters are recommended to be obtained from the Uniform j Building Code (UBC) 1997 Edition, Volume 2, Chapter 16, Divisions IV and V, utilizing a Seismic Zone 4 and a Soil Profile Type SD. If site-dependent earthquake response spectra or other specific design parameters are deemed necessary by the project structural engineer, or are required by the local governmental agency who has jurisdiction over the project, the geotechnical engineer should be promptly informed for further evaluation. In addition, design of structures should comply with the requirements of the governing jurisdiction's building codes and standard practices of the Structural Engineers Association of California. 1370 Pine Avenue, Carlsbad, CA Professional Service Industries, Inc. J 7 EVALUATION AND RECOMMENDATIONS The proposed construction at the site should be performed in accordance with the following recommendations and the standard guidelines for grading projects included in Appendix E. In case of conflict, the following recommendations shall supersede those in the appendix. Site Preparation Initially, all trees, loose topsoil, undocumented fill and deleterious material, as well as any existing structures, foundations, slabs, pavements, retaining walls, and utilities, must be removed from the areas proposed for construction and the resulting excavations backfilled with engineered fill as described below. The contractor should refer to local codes or ordinances for proper removal and disposal of any existing underground tanks, fuel lines and soil or other tank backfill material which may have been exposed to possible fuel leakage. Stripping operations should extend a minimum of 5 feet beyond the proposed pavement and building limits. After removal of any unsuitable materials as discussed above, the base of the resulting excavations should be scarified to a minimum depth of 6 to 8 inches, moisture conditioned as necessary to achieve a near optimum moisture content, and recompacted to a minimum 90 percent relative compaction (based on ASTM test method D-1557). The removed/replacement soils should be moisture conditioned to a near optimum moisture content and recompacted to a minimum 90 percent relative compaction (based on ASTM test method D-1557) until finished grades are reached. This earthwork should extend a minimum of 5 feet beyond the proposed building footprints. Fill materials should be free of organic or other deleterious materials, have a maximum particle size of 3 inches or less, have a liquid limit of less than 45 and a olasticity index of less than 25. The on-site soils are generally considered suitable for use as structural fill, provided they are properly processed. Fill should be placed in maximum loose lifts of 8 inches and should be compacted within the range of 3 percentage points below to 3 percentage points above the optimum moisture content value. If water must be added, it should be uniformly applied and thoroughly mixed into the soil by discing or scarifying. Each lift of compacted engineered fill should be tested by a representative of the geotechnical engineer prior to placement of subsequent lifts. The edges of compacted fill should extend at least 5 feet beyond the edges of buildings prior to sloping. Structural fill should be compacted to at least 90 percent of the maximum dry density (based on ASTM D1557). 1370 Pine Avenue, Carlsbad, CA - P:ofessional Service Industries, Inc. - 8 Non-structural fill adjacent to structural fill should be placed in unison to provide lateral support. Backfill along building walls must be placed and compacted with care to ensure excessive unbalanced lateral pressures do not develop. The type of fill material placed adjacent to below grade walls must be properly tested by the geotechnical engineer with consideration for the lateral earth pressure used in the wall design. Foundation Recommendations As discussed previously, the observed portions of the existing foundation system supporting the single-story residence had embedments of between 12 and 15 inches below adjacent grade, which we note is within the current Uniform Building Code guidelines for footings supporting single-story structures. It is not known if the existing footings are properly reinforced, as evaluation of the foundation reinforcement was not within our authorized scope of services. As a result, further evaluation of the suitability of the existing foundations to receive second-story loading should be performed as necessary by a qualified structural engineer. At that time, supplemental recommendations to improve the footings' suitability can be made (if warranted). Additional structure load imposed by the second story addition may be supported on conventional continuous or isola,ted spread footings which are entirely supported by firm natural soils or properly compacted fill soils. Footings for the one- or two-story residential structure should be embedded at least 6 inches below the lowest adjacent finish grade. At this depth, footings may be designed for an allowable soil bearing value-of 2000 psf. This bearing value may be increased by one-third for loads of short duration, such as wind or seismic forces. Continuous footings should have a minimum width of twelve inches, while isolated spread footings should have a minimum width of 24 inches. Appropriate footing reinforcement should be provided in accordance with the Structural Engineer's design Attention should be given in designing the foundation for the addition adjacent to the existing building. It is advisable to place the foundations for the addition at the same level as the foundations for the existing building so that the new footings will not undercut the soil beneath the existing footings. In spite of these precautions, small differential movements between the adjacent structures may be experienced. Construction joints should be provided between the existing building and the addition. The foundation excavations should be observed by a representative of PSI prior to steel or concrete placement to assess that the foundation materials are capable of supporting the design loads and are consistent with the materials discussed in this report. Soft or loose soil zones encountered at the bottom of the footing excavations should be removed as directed by the geotechnical engineer. Cavities formed as a result of excavation of soft or loose soil zones should be backfihled with lean concrete or dense graded compacted crushed stone. 1370 Pine Avenue, Carlsbad, CA Professional Service Industries, Inc. 4 After opening, footing excavations should be observed and concrete placed as quickly as possible to avoid exposure of the footing bottoms to wetting and drying. Surface run-off water should be drained away from the excavations and not be allowed to pond. If possible, the foundation concrete should be placed during the same day the excavation is made. If it is required that footing excavations be left open for more than one day, they should be protected to reduce evaporation or entry of moisture. Based on the known subsurface conditions and site geology, laboratory testing and past experience, we anticipate thariroperly designed and constructed footings supported on the recommended materials should experience maximum total and differential settlements between adjacent columns of less than one inch and ½ inches, respectively. While settlement of this magnitude is generally considered tolerable for structures of the type proposed, the design of masonry walls should include provisions for liberally spaced, vertical control joints to minimize the affects of cosmetic "cracking". Be advised that as a part of the foundation design election process, there is always a cost benefit evaluation. Although we are recommending a specific foundation type, we have not accomplished the cost/benefit evaluation. Structural Setback We recommend a minimum horizontal setback distance from the face of descending slopes and retaining walls for all structural footings and settlement-sensitive structures. This distance is measured from the outside bottom edge of the footing, horizontally to the slope face or the wall face and should be a minimum of H/2, where H is the wall height or slope height (in feet). The setback should not be less than 5 feet and need not be greater than 10 feet. Please note that the soils within the structural setback area possess poor lateral stability, and improvements (such as retaining walls, sidewalks, fences, pavements, etc.) constructed within this setback area may be subject to lateral movement and/or differential settlement. Floor Slab Recommendations New floor slabs-on-grade within the existing structure may be designed by the structural engineer using a coefficient of subgrade reaction of 100 pci and assuming a very low expansion potential (UBC 18-2). Based on geotechnical considerations, it is recommended that the interior slabs be at least 4 inches in nominal thickness, and minimally reinforced with 6x6 - 10/10 welded wire mesh, or in accordance with the structural engineer's requirements. Care should be taken by the contractor to ensure that the reinforcement is placed and maintained at slab midheight. Floor slabs should be suitably reinforced and jointed so that a small amount of independent movement can occur without causing damage. 1370 Pine Avenue, Carlsbad, CA - Professional Service Industries, Inc. 10 Slabs should be underlain by a capillary break at least 4 inches thick, consisting of coarse sand, gravel, or crushed rock. In moisture sensitive flooring areas, such as carpeted or linoleum covered areas, the slab should be additionally underlain (between the slab and capillary break) by at least two (2) inches of clean sand and a minimum 6-mil visqueen barrier. If the additional sand layer and visqueen are placed beneath the slab, the thickness of the capillary break layer may be reduced to 2 inches. The visqueen sheet should be sealed along the edges to prevent lateral migration of soil moisture from adjacent non-visqueen areas. Prior to placement of clean sand and slab-on-grade, the visqueen sheet should be thoroughly inspected for cracks, punctures, tears, and holes. If necessary, the visqueen should be replaced or patched to assure a fully functional entity. Some minor cracking of slabs can be expected due to shrinkage. The potential for this slab cracking can be reduced by careful control of water/cement ratios in the concrete. The contractor should take appropriate curing precautions during the pouring of concrete in hot weather to minimize the cracking of slabs. We recommend that a slipsheet (or equivalent) be utilized if grouted fill, tile, or other floor sensitive floor covering is planned directly on concrete slabs. All slabs should be designed in accordance with structural considerations. Lateral Earth Pressures and Resistance The following preliminary lateral earth pressure values for level or sloping backfill are recommended for retaining walls backfilled (if proposed) with approved granular soils. Equivalent Fluid Weight (pcfl Conditions Level Backfill 2:1 Sloping Backfill Active 35 55 At-Rest 55 70 Passive (Compacted Fill) 300 150 (sloping downward) Unrestrained (yielding) cantilever walls should be designed for an active equivalent pressure value provided above. In the design of walls restrained from movement at the top (non- yielding) such as basement walls, the at-rest pressures should be used. The above values assume backfill soils will have a very low expansion potential and free-draining conditions. If conditions other than those covered herein are anticipated, the equivalent fluid pressures should be provided on an individual basis by the geotechnical engineer. Wall footings should be designed in accordance with the Foundation Recommendations section of this report and reinforced in accordance with structural considerations. For all retaining walls, we recommend a minimum horizontal distance from the outside base of the footing to daylight of eight feet. 1370 Pine Avenue, Carlsbad, CA Professional Service Industries, Inc. - 11 It is recommended that all below-grade walls and retaining walls be provided with a positive foundation drainage system. A typical below-grade wall drain would consist of a minimum 4-inch flexible or, rigid perforated pipe surrounded by 3/4 inch crushed rock and wrapped in a non-woven geotextile fabric (consisting of Mirafi 140N or approved equivalent). The subsurface drainage system should be tied to the storm drainage system, allowed to daylight downslope, or collected in a sump and pumped out. This system typically is installed directly on top of the retaining wall footing. Retaining wall backfill should consist of approved granular material. This fill material should be compacted to at least 90 percent of the maximum dry density (as determined by ASTM D1557). Flooding or jetting of the backfill should not be permitted. Granular backfill should be capped with relatively impervious fill to seal the backfill and reduce the potential for saturation. Cantilever or restrained walls subject to uniform surcharge loads should be designed for an additional uniform lateral pressure equal to one-third the anticipated surcharge pressure in the case of the cantilevered walls (active conditions), and one-half the anticipated surcharge in the case of restrained walls (at-rest conditions). It should be noted that the use of heavy compaction equipment in close proximity to retaining structures can result in wall pressures exceeding design values and corresponding wall movement greater than normally associated with the development of active conditions. In this regard, the contractor should take appropriate precautions during the backfill placement. Lateral 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 may 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. Pavement Recommendations The providing of pavement design recommendations was not within our authorized scope of services. Such recommendations, based upon additional laboratory testing of subgrade materials, can be provided by this office upon request. 1370 Pine Avenue, Carlsbad, CA Prcfessional Service Industries, Inc. I 12 CONSTRUCTION CONSIDERATIONS It is recommended that PSI be retained to provide observation and t--sting of construction activities involved in the foundation, earthwork, and related activities of this project. PSI cannot accept any responsibility for any conditions which deviated from those described in this report, nor for the performance of the foundation if not engaged to also provide construction observation and testing for this project. Moisture Sensitive Soils/Weather Related Concerns The upper soils encountered at this site may be sensitive to disturbances caused by construction traffic and to changes in moisture content. During wet weather periods, increases in the moisture content of the soil can cause significant reduction in the soil strength and support capabilities. In addition, soils which become wet may be slow to dry and thus significantly retard the progress of grading and compaction activities. It will, therefore, be advantageous to perform earthwork and foundation construction activities during dry weather. The nature of the encountered soils makes them particularly susceptible to erosion during periods of inclement weather. As a result, the Project Engineer/Architect and Grading Contractor should take appropriate precautions to reduce the potential for erosion during and after construction. Drainage and Groundwater Considerations Our experience indicates that surface or near-surface ground water conditions can develop in areas where ground water conditions did not exist prior to site development, especially in areas where a substantial increase in surface water infiltration results from landscape irrigation. This sometimes occurs where relatively impermeable and/or cemented formational materials are overlain by fill soils. In addition, during retaining wall excavations, seepage may be encountered. We recommend that a representative of PSI be present during grading operations to evaluate areas of seepage. Drainage devices for reduction of water accumulation can be recommended if these conditions occur. 1370 Pine Avenue, Carlsbad, CA Professional Service Industries, Inc. 13 Water should not be allowed to collect in the foundation excavation, on floor slab areas, or on prepared subgrades of the construction area either during or after construction. Undercut or excavated areas should be sloped toward one corner to facilitate removal of any collected rainwater, groundwater, or surface runoff. Positive site drainage should be provided to reduce infiltration of surface water around the perimeter of the building and beneath the floor slabs. The grades should be sloped away from the building and surface drainage should be collected and discharged such that water is not permitted to infiltrate the backfill and floor slab areas of the building. Excavations In Federal Register, Volume 54, No. 209 (October 1989), the United States Department of Labor, Occupational Safety and Health Administration (OSHA) amended its "Construction Standards for Excavations, 29 CFR, part 1926, Subpart P". This document was issued to better insure the safety of workmen entering trenches or excavations. It is mandated by this federal regulation that excavations, whether they be utility trenches, basement excavation or footing excavations, be constructed in accordance with the new OSHA guidelines. It is our understanding that these regulations are being strictly enforced and if they are not closely followed, the owner and the contractor could be liable for substantial penalties. The contractor is solely responsible for designing and constructing stable, temporary excavations and should shore, slope, or bench the sides of the excavations as required to maintain stability of both the excavation sides and bottom. The contractor's "responsible person", as defined in 29 CFR Part 1926, should evaluate the soil exposed in the excavations as part of the contractor's safety procedures. In no case should slope height, slope inclination, or excavation depth, including utility trench excavation depth, exceed those specified in local, state, and federal safety regulations. We are providing this information solely as a service to our client. PSI does not assume responsibility for construction site safety or the contractor's or other parties compliance with local, state, and federal safety or other regulations. Trench Backfill r Except where extending perpendicular under proposed foundations, utility trenches I should be constructed outside a 1:1 projection from the base-of-footings. Trench excavations for utility lines which extend under structural areas should be properly backfilled and compacted. 1370 Pine Avenue, Carlsbad, CA Professional Service Industries, Inc. 14 Utilities should be bedded and backfilled with clean sand or approved granular soil to a j depth of at least 1-foot over the pipe. This backfill shall be uniformly watered and compacted to a firm condition for pipe support. The remainder of the backfill shall be typical on-site soil, or imported soil, which shall be placed in lifts not exceeding 8 inches in thickness, watered or aerated to optimum moisture content, and mechanically compacted to at least 90 percent of maximum dry density (based on ASTM D1557). REPORT LIMITATIONS The recommendations submitted are based on the available subsurface information obtained by PSI and design details furnished by Mr. Guy Sabala and Mrs. Anne Sabala for the proposed project. If there are any revisions to the plans for this project or if deviations from the subsurface conditions noted in this report are encountered during construction, PSI should be notified immediately to determine if changes in the foundation recommendations are required. If PSI is not retained to perform these functions, PSI will not be responsible for the impact of those conditions on the project. The geotechnical engineer warrants that the findings, recommendations, specifications, or fl professional advice contained herein have been made in accordance with generally accepted J professional geotechnical engineering practices in the local area. No other warranties are implied or expressed. After the plans and specifications are more complete, the geotechnical engineer should be retained and provided the opportunity to review the final design plans and specifications to check that our engineering recommendations have been properly incorporated into the design documents. At this time, it may be necessary to submit supplementary recommendations. This report has been prepared for the exclusive use of Mr. Guy Sabala and Mrs. Anne Sabala for the specific application to the proposed second-story addition to the residence at 1370 Pine Avenue in Carlsbad, California. 1370 Pine Avenue, Carlsbad, CA - Professional Service Industries, Inc. 1370 Pine Avenue ,Carlsbad, CA - Professional Service Industries, Inc. \'(, \':4. •-\Hf '. %"_) PaIul;\ " IN- ;~J\~ & \31- -isposa, n5 U -, ping 17 Shop -S Center 1- 7 r'3&T Buena Vvis V. , 3 T11S AV NN Q, 12 S AV r led KNOE\Rv\\c9 SITE LOCATION LAG UNA \ 4 ra ry ( £2. mt High Kell and Aca oo 20, PROJECT NAME Proposed Secotid-Story Addition Figure 1 - Site Location Map To Sabala Residence 1370 Pine Avenue PROJECT NO. DATE Carlsbad, California 062-95083 August 1999 T-2 T-3 Legend: T-3 Approximate Location Of H Exploratory Test Pit Not To Scale PROJECT NAME Proposed Second-Story Addition Figure 2 - Test Pit Location Map To Sabala Residence 1370 Pine Avenue PROJECT NO. bATE Carlsbad, California 062-95083 August 1999 1370 Pine Avenue ,Carlsbad, CA Professional Service Industries, Inc. REFERENCES Blake, T.F., 1995, Documentation for Egfault Version 2.01 Update, Thomas F. Blake Computer Services and Software, Newbury Park, California, p. 79 and appendices. Blake, Thomas F., 1998, New Fault-Model Files For FRISKSP and EQFAIILT, Thomas F. Blake Computer Services and Software, Newbury Park, California. California Division of Mines and Geology, 1998, Maps Of Known Active FaultNear- Source Zones In California And Adjacent Portions Of Nevada. Campbell, K.W. and Bozorgnia, Y., 1994, Near-Surface Attenuation of Peak Horizontal Acceleration From Worldwide Accelerograms Recorded From 1957 to 1993, Proceedings, Fifth U.S. National Conference on Earthquake Engineering, Vol III, Earthquake Engineering Research Institute, pp. 283-292. Foundations and Earth Structures, Naval Facilities Design Manual DM-7.2, 1982, Department of the Navy, Naval Facilities Engineering Command, 224 p. Hart, E.W. and Bryant, W.A, 1997, Fault-rupture Hazard Zones in California, California Division of Mines and Geology Special Publication 42. Hunt, R.E., 1984, Geotechnical Engineering Investigation Manual, McGraw-Hill, New York, NY, 983 p. Jennings, C.W., 1994, Fault Activity Map of California and Adjacent Areas, scale 1:750,000, California Division of Mines and Geology. Kennedy, M.P. and Tan, S.S., 1996, DMG Open-File Report 96-32. Geologic Map of the Oceanside. San Luis Rey and San Marcos 7.5' Quadrangles. Plate 1. California Division Of Mines And Geology. Proceedings. Seminar on New Developments in Earthquake Ground Motion Estimation and Implications for Engineering Design Practice, January 1994, Applied Technology Council and U.S. Geologic Survey, Redwood City, CA, 18 Chapters. Seed, H .B., Idriss, I. M., and Arango, I., 1983, Evaluation of Liquefaction Potential Using Field Performance Data, Journal of Geotechnical Engineering, ASCE, Vol 109, No. 3, p. 458-482. Soil Mechanics, Naval Facilities Design Manual DM-7.1, 1982, Department of Navy, Naval Facilities Engineering Command, 348 p. 1370 Pine Avenue , Carlsbad, CA Professional Service Industries, Inc. Tokimatsu, A.M. and Seed, H.B., 1987, Evaluation of Settlements in Sands Due to Earthquake Shaking, Journal of Geotechnical Engineering, ASCE, Vol 113, No. 8, p. 861-878. Uniform Building Code, f997 Edition, International Conference of Building Officials, Whittier, CA, 3 Volumes. US Geological Survey, San Luis Rey, California Quadrangle. United States Department of the Interior, Scale: 1:24,000, 1968 (photo-revised 1975). Wesnousky, S.G., 1986, Earthquakes. Quaternary Faults, and Seismic Hazard in California, Journal of Geophysical Research, Vol. 91, No. B12, P.2587-12631. Winterkorn, H.F., and Fang, H.Y., 1976, Foundation Engineering Handbook: New York, NY, Van Nostrand Reinhold, 751 p. Wright Design, Undated, Floor Plans, Sabala Addition, 1370 Pine Avenue, Carlsbad. CA 92008, 3 Sheets. 1370 Pine Avenue ,Carlsbad, CA - ?rofessional Service Industries, Inc. APPENDIX B EXPLORATION LOGS 1370 Pine Avenue , Carlsbad, CA P:ofessional Service Industries, Inc. TERM (NON-COHESIVE SOILS) STANDARD PENETRATION RESISTANCE Very Loose 4 or less Loose 4to10 Medium Dense 10 to 30 Dense 30 to 50 Very Dense Over 50 TERM (COHESIVE SOILS) Very Soft 3 or less Soft 4t05 Medium Stiff 6to10 Stiff 11to15 Very Stiff 16 to 30 Hard 31 or More PARTICLE SIZE Boulders 8 in + Coarse Sand 5mm-0.6mm Silt Cobbles 8 in-3 in Medium Sand 0.6mm-02mm Clay Gravel 3 in-5 mm Fine Sand 0.2mm-0.074mm QU - (TSF) 0 -0.25 0.25 -0.50 0.50-1.00 1.00 -2.00 2.00 -4.00 4.00 + 0.074 mm-0.005mm 0.005mm Professional Service Industries = GENERAL NOTES SAMPLE IDENTIFICATION The Unified Soil Classification System is used to identify soil unless otherwise noted. SOIL PROPERTY SYMBOLS N: Standard Penetration Value: Blows per foot of 140 pound hammer falling 30 inches on a standard split-spoon penetrometer. Qu: Unconfined compressive strength (tsf). Qp: Penetrometer value, unconfined compressive strength (tsf). Mc: Water content (%). LL: Liquid limit (%). Pt: Plasticity index (%). 8d: Natural dry density (pcf). V: Apparent groundwater level at time noted after completion. DRILLING AND SAMPLING SYMBOLS SS: Split-Spoon - 1 3/8" l.D., 2" O.D. SB: Spilt-Barrel - 2 3/8' l.D., 3" O.D. ST: Shelby Tube - 3" O.D., except where noted. BS: Bulk Sample. AU: Auger Sample. DB: Diamond Bit. CB: Carbide Bit. WS: Washed Sample. RELATIVE DENSITY AND CONSISTENCY CLASSIFICATION - - . .---. . - - - - • -p----- — 't r rlultbal.JuIoI Jcu v. TEST PIT LOG Trench or Hole No. T - I Surface Elevation ± 130' Above Mean Sea Level Date Started August8,1999 Location SeeTestPitLocationMap Elevation of Bottom ±128' Above Mean Sea Level Date Completed August8,1998 In-Situ Moisture Depth Class Sample Dry Density Content Field Classification and Description of Material Field Sketch of Tess Pit or Test Trench (pcf) (%) Excavation — SM EIjL. Dark Brown Silty Fine to Medium SAND, Moist, Loose to Medium Dense Occasional Rootlets Xs - S Weathered _Bavoount_Formation/Toosoil Dark Reddish Brown Silty Fine — 1 113.3 10.0 to Medium SAND Moist Medium Dense Occasional Rootlets 2 — Test Pit Terminated at 2 feet No groundwater encountered._______________________________ Backfilled on 8/9/99. X. — ..:. XX X. 5 - 6 xxx PROJECT NO. PROJECT NAME Sabala Residence Method of Excavation Manual Approximate Dimension: 2' x 2' x 2' 06295083 1370 Pine Avenue Sample Hammer: weight N/A Groundwater Elevation: N/A DATE: Carlsbad, California Sample Hammer: Drop N/A Logged by: WRM August 1999 'SI A-100-14 -- L2 E3 - 3 L3 7E t tLjJ Df.i.sn,I ør,il Intl. ,trip TEST PIT LOG Trench or Hole No. T -2 Surface Elevation ± 130' Above Mean Sea Level Location See Test Pit Location Map Elevation of Bottom ± 128.5' Above Mean Sea Level In-Situ Moisture Depth Class Sample Dry Densit Content Field Classification and Description of Material (pcf) (%) Date Started August 8, 1999 Date Completed August 8, 1998 Field Sketch of Test Pit or Test Trench Excavation - SM Fill Dark Brown Silty Fine to Medium SAND, Damp to Moist, Medium - Dense Occasional Roots.________________________________ Weathered Baypoint Formation/Topso Dark Reddish Brown Silty SM to Medium SAND Moist Medium Dense Occasional Rootlets 1 112.9 8.2 2' Test 1'itlerriiiriatedatl.5feet. ....::.:...:. .... No groundwater encountered Backfilled on 8/9/99 ___________________________________ .. 4 - 5 - I 6 - PROJECT NAME PROJECT NO. Sabala Residence Method of Excavation Manual Approximate Dimension 2' x 2' x 1.5' 06295083 1370 Pine Avenue Sample Hammer: Weight N/A Groundwater Elevation: N/A DATE: Carlsbad, California Sample Hammer: Drop N/A Logged by: WRrsl . August 1999 PSI A-100-14 tJ c' TT2 C EJLLJ c i - .., i..,1...+..., TEST PIT LOG Trench or Hole No. T -3 Surface Elevation ± 130' Above Mean Sea Level Location See Test Pit Location Map Elevation of Bottom ± 127.5' Above Mean Sea Level In-Situ Moisture Depth Class Sample Dry Density Content Field Classification and Description of Material (pcf) (%) Date Started August 8, 1999 Date Completed August 8, 1998 Field Sketch of Test Pit or Test Trench Excavation SM I I I I Eill. Dark Brown Silty Fine to Medium SAND, Very Moist, Loose, Roots. 1 11 - SM Weathered Bayooint Formation/Topsoil: Dark Reddish-Brown Silty Fine - 1 130.6 10.7 to Medium SAND, Very Moist to Wet, Medium Dense, Occasional Rootlets. 2 = Becomes Medium Orangish-Brown in Color and Less Weathered. 3 - - Test Pit Terminated at 2.5 feet. - No groundwater encountered. - Backfilled on 8/9/99. I 4 6 PROJECT NAME PROJECT NO. Sabala Residence Method of Excavation Manual Approximate Dimension: 2' x 2' x 2.5' 062-95083 1370 Pine Avenue Sample Hammer: weight N/A Groundwater Elevation: N/A DATE: Carlsbad, California Sample Hammer: Drop N/A Logged by: VRM August 1999 St A-100-14 APPENDIX C LABORATORY TEST RESULTS 1370 Pine Avenue ,Car1sbad, CA Proèssional Service Industries, Inc. LABORATORY TEST RESULTS Laboratory Testing Program Laboratory tests were performed on representative soil samples to determine their relative engineering properties. Tests were performed in accordance with test methods of the American Society for Testing Materials or other accepted standards. The following presents a brief description of the various test methods used. Classification - Soils were classified visually according to the Unified Soil Classification System. Visual classifications were supplemented by laboratory testing of selected samples in accordance with ASTM D2487. The soil classifications are shown on the Exploration Logs, Appendix B. Moisture-Density Relationship - Laboratory compaction tests were performed in accordance with ASTM D1557, Method A. A mechanically-operated ram was used during the compaction process. Direct Shear Tests - Consolidated, drained, direct shear tests were performed on undisturbed samples in accordance with ASTM D-3080. The undisturbed samples were tested in a saturated condition using normal loads of 1 ksf, 2 ksf, and 4 ksf. Expansion Index - Expansion testing was performed on representative samples of the fl upper on-site soils, remolded and surcharged to 144 pounds per square foot in accordance with ii the Uniform Building Code Standard No. 18-2. Soil Sulfate Test - In order to estimate the concrete degradation potential of soils, the content of soluble sulfates was determined in accordance with Cal Test Method 417A. Particle Size Analysis - Particle size analysis was performed on selected representative sample in accordance with ASTM D422. 1370 Pine Avenue Carlsbad, CA - Professional Service Industries, Inc. SUMMARY OF LABORATORY TEST RESULTS RESULTS OF MAXIMUM DENSITY TEST (ASTM D 1557) SAMPLE LOCATION MAXIMUM DENSITY OPTIMUM MOISTURE CONTENT T-1 @ 1-2' 128.0 pcf 8.5% RESULTS OF DIRECT SHEAR TESTS (ASTM D 3080) SAMPLE LOCATION COHESION INTERCEPT ANGLE OF INTERNAL FRICTION T-1@1.5' loopsf 360 1370 Pine Avenue , Carlsbad, CA Professional Service Industries, Inc. RESULTS OF EXPANSION INDEX TEST (UBC 18-2) SAMPLE LOCATION EJANSIO\ INDEX T-2 @ 1-2' 0 (Very Low) SOIL SULFATE TEST (Cal Test 417A) SAMPLE LOCATION SOLUBLE SULFATES DEGREE OF ATTACK T-1 @ 1.5' <50 ppm Negligible 1370 Pine Avenue ,Carlsbad, CA Professional Service Industries, Inc. APPENDIX D SEISHC ANALYSIS - COMPUTER OUTPUT 1370 Pine Avenue ,Carlsbad, CA - Professional Service Industries, Inc. L2 L! t2 tTr LJ tJ JJ LJ LJ LJ LJ T2 ( J LJ L_J IL I1iIli if UWU& _iuuJl. '1uIuuiu•uuuluN=iI;1uuu•Iuuuuu• iiuuuui• 1 IIIIIUUU liii,... lililua. IIIIIUUU liii.... Ill..... IuIi... huh. uuuuiu• liii.... ____ui• uuuiuiu• huh.._flhhhlilU_uulu.. liii... ___IUIhIUU_ihlihiRU_hihhhiUU_lull...._ihiihiiU I.._hullullU liii.... hilliflU uuiuhi.. ililhllU ii. hIlliiIU liii.... hhhhllilU_Ill....._IhlihilU ____ iIUU hhlihiiU iUiIUUU hhhhlI•I hhhlhllU hillhl•U________ liii... uhiulUU _ IhllllUU uuuuui•_ihhliiiU_iuuuu•uuuini• IIIIIIIU ____ ___ IIIIIIIU miuuu _IhhIhIUU ;uiuu hull...________ • liii.... hlhlillU_IlillilU iuuuui••_iiilliU____ __ii• hhhiiiiU_liii...._nil.... huh. hilllhlU Ii. uiiuuu•• iii,.... Ill.,... imuu iIlllhU ____ ____nil.... iuuiii•u_IIlIhIUU IhhihhlU_hhllhhl. ui• IlhlhiRU_uuuuih•U liii...._IhilihiU_IhiilhIU____ IIIIIIIU hiiilIUU iuuiui• IhilhhlU 111111.. NNW :- S1.I:I! SILT OR CLAY 'rrrmm1(.h _____________ -- 370 Pine A)Lenue Carlsbad, CA REPORTL.1 SOIL i PS! A-100-7 I DATE: Friday, August 6, 1999 * ** *** * * ** * * * * * * * * ********** * *** * **** * * * E Q F A U L T * * * * Ver. 2.20 * * * * * * *** ******** ** ** * * ****** * * * * *** * *** * * (Estimation of Peak Horizontal Acceleration From Digitized California Faults) SEARCH PERFORMED FOR: ANNE & GUY SABALA JOB NUMBER: 062-95083 JOB NAME: SABALA RESIDENCE - CARLSBAD, CALIFORNIA SITE COORDINATES: LATITUDE: 33.1632 N LONGITUDE: 117.3358 W SEARCH RADIUS: 62 mi ATTENUATION RELATION: 1) Campbell & Bozorgnia (1994) Horiz. - Alluvium UNCERTAINTY (M=Mean, S=Mean+l-Sigma): M SCOND: 0 COMPUTE PEAK HORIZONTAL ACCELERATION FAULT-DATA FILE USED: CDMGSCE.DAT SOURCE OF DEPTH VALUES (A=Attenuation File, F=Fault Data File) : A ----------------------------- DETERMINISTIC SITE PARAMETERS ----------------------------- Page 1 ----------------------------------------- MAX. CREDIBLE EVENTI MAX. PROBABLE EVENT I I APPROX. - ------------------- II -------------------I I ABBREVIATED IDISTANCE I MAX.1 PEAK I SITE 11 MAX. I PEAK I SITE I FAULT NAME I mi (km) ]CRED.1 SITE IINTENSI IPROB. I SITE IINTENSI I I I MAG.jACC. 91 MM II MAG.IACC. 91 MM I ------------- - ISAN JACINTO-COYOTE CREEK I 52 --------- - ( 84)1 ----- I ------I 6.801 0.0381 ------II V -----I 11 6.201 ------I 0.0231 ------I IV I--------------------------I ISAN TACINTO-ANZA I 46 ---------I ( 4)I ----- - ------ 7.201 I 0.0641 ------ VI II ----- - II 6.901 ------ I 0.0491 ------ VI I I-------------------------- I SAN 3ACINTO-SAN JACINTO VAI 46 --------- - ( 75)1 ----- I 6.901 ------I 0.0491 ------ VI II ----- I II 6.801 ------I 0.0441 ------ VI -------------I ISAN JACINTO-SAN BERNARDINOI 59 --------- I ( 95)1 ----- I 6.701 ------ I 0.0301 ------ V II ----- I II 6.701 ------I------ 0.0301 V I--------------------------I IELSINORE-COYOTE MOUNTAIN I 58 ( 94)l ---------I-----I------ 6.801 I 0.0331 ------ V II -----I II 6.201 ------I 0.0191 ------ IV I--------------------------I IELSIN0RE-JULIAN I 24 ---------I ( 38)l ----- I 7.101 ------ I 0.1311 ------ VIII II ----- I 1 1 6.401 ------I------I 0.0741 VII -------------- I ELSINORE-TEMECULA I 24 --------- I ( 38)l ----- I 6.801 ------ I 0.1041 ------ VII II ----- I II 6.301 ------ I 0.0681 ------ I VI I I--------------------------I IELSIN0RE-GLEN IVY I 33 ---------I ( 53)1 ----- I 6.801 ------ I 0.0691 ------ VI II ----- - II 6.301 ------ - 0.0441 ------ VI I -------------- - IWHITTIER 1 51 --------- I ( 81)1 ----- I 6.801 ------ I 0.0401 ------ V II ----- I II 5.901 ------ I 0.0181 ------ I IV I I--------------------------I ICHINO-CENTRAL AVE. (Elsinol 48 ( 77)l ---------I-----I------I 6.701 0.0391 ------II V ----- I II 5.501 ------- I 0.0151 ------ I IV I I-------------------------- I IEARTHQUAKE VALLEY I 44 --------- I ( 70) I ----- I 6.501 ------ I 0.0371 ------ v II ----- I II 5.701 ------I------I 0.0181 IV I I--------------------------I---------I CORONADO BANK I 22 ( 35)! ----- I 7.401 ------ I 0.1841 ------ VIII II ----- I II 6.301 ------ I 0.0761 ------ I VII I I-------------------------- I INEWPORT-INGLEWOOD (Offshorl 5 --------- I ( 9)1 ----- I 6.901 ------ I 0.3871 ------ X II ----- I II 5.801 ------ I 0.2151 ------I VIII I I--------------------------I ROSE CANYON I 5 --------- I ( 9)1 ----- I 6.901 ----- -I 0.3891 ------ X II ----- I II 5.701 ------ I 0.1991 ------ -I VIII I I--------------------------I INEWPORT-INGLEwOOD (L.A.Basl 46 --------- I ( 74)1 ----- I 6.901 ------ I 0.0501 ------ VI II ----- I II 5.601 ------ I 0.0161 ------ I IV I I-------------------------- I IPALOS VERDES I 36 --------- I ( 58)1 ----- I 7.101 ------ I 0.0801 ------ VII II ----- I II 6.201 ------ I 0.0371 ------ I V I -------------------------- I ICOMPTON THRUST I 55 --------- I ( 89)! ----- I 6.801 ------ I 0.0521 ------ VI II 5.801 II -----I------I------I 0.0231 IV I I--------------------------I---------I ELYSIAN PARK THRUST I I-------------------------- I *** * * * * * * * * * ***** * * * ** * * * * ** 58 ( 93)! ** * *** * * ** ---------I-----I------ 6.701 * * * * ** -----I------I 0.0451 I ** * *** ------II VI ------ * * * * * * -----I II 5.801 II -----I------ ** * * *** * ------ I 0.0221 I **** * * ** ------ -I IV I ------I * * * ** -END OF SEARCH- 18 FAULTS FOUND WITHIN THE SPECIFIED SEARCH RADIUS. THE ROSE CANYON FAULT IS CLOSEST TO THE SITE. IT IS ABOUT 5.4 MILES AWAY. LARGEST MAXIMUM-CREDIBLE SITE ACCELERATION: 0.389 g LARGEST MAXIMUM-PROBABLE SITE ACCELERATION: 0.215 g CALIFORNIA FAULT MAR C- 0 co PEAK HORIZONTAL ACCELERATION (g) I llIHII I 11111111 I 11111111 I N) - c o = co CA ci) -H - z X C0 • o;=- Fri - - XXX XX - : ' - (I) I >X,X I 0 - -H o - - C - - 0 —Ti I 0 0 11111111 I iiiiiiil I 11111111 I i PEAK HORIZONTAL ACCELERATION(g) I 11111111I 11111111 I 11111111 I 1 FTI > N) —H - - Z E -o cf) - - - 0 z - m -CD (I) -H ,- - - x x - 111 0 - - - C CA > cyl 0 I 11111111 I icciiiI I iiiiiI I iE co 0 APPENDIX E STANDARD GUIDELINES FOR GRADING PROJECTS 1370 Pine Avenue, Carlsbad, CA Professional Service Industries, Inc. Standard Guidelines Li For Grading Projects STANDARD GUIDELINES FOR GRADING REPORTS Presented By: Professional Service Industries, Inc. Standard Guidelines For Grading Projects TABLE OF CONTENTS GENERAL.........................................................................................................................................SG- 1 DEFINITIONOF TERMS.................................................................................................................SG- I OBLIGATIONSOF PARTIES .......................................................................................................... SG-4 SITEPREPARATION ........................................................................................................... ............ SG-4 SITEPROTECTION ............................................................................................................. ............. SG-5 EXCAVATIONS........................................................................................ . ........................................ SG-6 UnsuitableMaterials ............................................................................................. ........................ SG-6 CutSlopes ...................................................................................................................................... SG-6 PadAreas ....................................................................................................................................... SG-7 COMPACTEDFILL ....... .................................................................................................................... SG-7 Placement......................................................................................................................................SG-7 Moisture.......................................................................................................................................... SG-8 FillMaterial .................................................................................................................................... SG-9 FillSlopes ...................................................................................................................................... SG-lO Off-Site Fill ....................................................................................................................................SG-1 1 Off-Site Fill ...................................................................................................................................SG-11 DRAINAGE.............................. . ........................................................................................................ SG-1 1 STAKING..........................................................................................................................................SG-12 SLOPEMAINTENANCE .................................................................................................................. SG-12 LandscapePlants ........................................................................................................................... SG-12 Irrigation.............................................................................................................. ......................... SG-12 Maintenance..................................................................................................................................SG-13 Repairs........................................................................................................................................... SG13 TRENCHBACKFILL ............................ . ............................................................................................ SG-13 STATUSOF GRADING ...................................................................................................................SG-14 - GENERAL The guidelines contained herein and the standard details attached hereto represent this firm's - standard recommendations for grading and other associated operations on construction projects. These guidelines should be considered a portion of the project specifications All plates hereto shall be considered as part of these guidelines. The Contractor should not vary from these guidelines without prior recommendation by the Geotechnical Consultant and the approval of the Client or his authorized representative. Recommendation by the Geotechnical Consultant and/or Client should not be considered to preclude requirements for approval by the controlling agency prior to the execution of any changes. These Standard Grading Guidelines and Standard Details may be modified and/or superseded by recommendations contained in the text of the preliminary Geotechnical report and/or subsequent reports. If disputes arise out of the interpretation of these grading guidelines or standard details, the Geotechnical Consultant shall provide the governing interpretation. DEFINITIONS OF TERMS ALLUVIUM - Unconsolidated soil deposits resulting from flow of water, including sediments deposited in river beds, canyons, flood plains, lakes, fans and estuaries. AS-GRADED (AS-BUILT) - The surface and subsurface conditions at completion of grading. BACKCUT - A temporary construction slope at the rear of earth retaining structures such as buttresses, shear keys, stabilization fills or retaining walls. BACKDRAIN - Generally a pipe and gravel or similar drainage system placed behind earth retaining structures such buttresses, stabilization fills, and retaining walls. BEDROCK - Relatively undisturbed formational rock, more or less solid, either at the surface or beneath superficial deposits of soil. BENCH - A relatively level step and near vertical rise excavated into sloping ground on which fill is to be placed. BORROW (Import) - Any fill material hauled to the project site from off-site areas. BUTTRESS FILL - A fill mass, the configuration of which is designed by engineering calculations to retain slope conditions containing adverse geologic features. A buttress is generally specified by minimum key width and depth and by maximum backcut angle. A buttress normally contains a back-drainage system. CIVIL ENGINEER - The Registered Civil Engineer or consulting firm responsible for preparation of the grading plans, surveying and verifying as-graded topographic conditions SG - 1 CLIENT - The Developer or his authorized representative who is chiefly in charge of the project. He shall have the responsibility of reviewing the findings and recommendations made by the Geotechnical Consultant and shall • authorize the contractor and/or other consultants to perform work and/or provide services. COLLUVIIJM - Generally loose deposits usually found near the base of slopes and brought there chiefly by gravity through slow continuous downhill creep (also see Slope Wash). COMPACTION - Densification of man-placed fill by mechanical means. CONTRACTOR - A person or company under contract or otherwise retained by the Client to perform demolition, grading and other site improvements. DEBRIS - All products of clearing, grubbing, demolition, contaminated soil materials unsuitable for reuse as compacted fill and/or any other material so designated by the Geotechnical Consultant. ENGINEERING GEOLOGIST - A Geologist holding a valid certificate of registration in the specialty of Engineering Geology. ENGINEERED FILL - A fill of which the Geotechnical Consultant or his representative, during grading, has made sufficient tests to enable him to conclude that the fill has been placed in substantial compliance with the recommendations of the Geotechnical Consultant and the governing agency requirements. EROSION - The wearing away of the ground surface a s a result of the movement of wind, water, and/or ice. EXCAVATION - The mechanical removal of earth materials. EXISTING GRADE - The ground surface configuration prior to grading. FILL - Any deposits of soil, rock, soil-rock blends or other similar materials placed by man. FINISH GRADE - The ground surface configuration at which time the surface elevations conform to the approved plan. GEOFABRIC - Any engineering textile utilized in Geotechnical applications including subgrade stabilization and filtering. GEOLOGIST - A representative of Geotechnical Consultant educated and trained in the field of geology. GEOTECITNICAL CONSULTANT - The Geotechnical Engineering and Engineering Geology consulting firm retained to provide technical services for the project. For the purpose of these specifications, observations by the Geotechnical Consultant include observations by the Soil Engineering, Geotechnical Engineer, Engineering Geologist and those performed by persons employed by and responsible to the Geotechnical Consultants. SG-2 j Standard Guidelines For Grading Projects GEOTECHNICAL ENGINEER - A licensed Geotechnical Engineer of Civil Engineer who applies scientific methods, engineering principles and professional experience to the acquisition, interpretation and use of knowledge of materials of the earth's crust for the evaluation of engineering problems. Geotechnical Engineering encompasses many of the engineering aspects of soil mechanics, rock mechanics, geology, geophysics, hydrology and related sciences. GRADING - Any operation consisting of excavation, filling or combinations thereof and associated operations. LANDSLIDE DEBRIS - Material, generally porous and low density, produced from instability of natural or man-made slopes. MAXIMUM DENSITY - Standard laboratory test for maximum dry unit weight. Unless otherwise specified, the maximum dry unit weight shall be determined in accordance with ASTM Method of Test D 1557-78. OPTIMUM MOISTURE - Soil moisture content at the test maximum density. RELATIVE COMPACTION - The degree of compaction (expressed as a percentage) of dry unit weight of material as compared to the maximum dry unit weight of the material. ROUGH GRADE - The ground surface configuration at which time the surface elevations approximately conform to the approved plan. SITE - The particular parcel of land where grading is being performed. SHEAR KEY - Similar to buttress, however, it is generally constructed by excavating a slot within a natural slope in order to stabilize the upper portion of the slope without grading encroaching into the lower portion of the slope. SLOPE - Is an inclined ground surface the steepness of which is generally specified as a ratio of horizontal: vertical (e.g., 2:1). SLOPE WAHS - Soil and/or rock material that has been transported down a slope by action of gravity assisted by runoff water not confined by channels (also see Colluvium). SOIL - Naturally occurring deposits of sand, silt, clay, etc., or combinations thereof. SOIL ENGINEER - Licensed Geotechnical Engineer or Civil Engineer experienced in soil mechanical (also see Geotechnical Engineer). STABILIZATION FILL - A fill mass, the configuration of which is typically related to slope height and is specified by the standards of practice for enhancing the stability of locally adverse conditions. A stabilization fill is normally specified by minimum key width and depth and by - maximum backcut angle. A stabilization fill may or may not have a backdrainage system specified. SUBDRAIN - Generally a pipe and gravel or similar drainage system placed beneath a fill in the alignment of canyons or former drainage channels. SLOUGH - Loose, non-compacted fill material generated during grading operations. TAILINGS - Non-engineered fill which accumulates on or adjacent to equipment haul-roads. TERRACE - Relatively level step constructed in the face of graded slope surface for drainage control and maintenance purposes. TOPSOIL - The presumable fertile upper zone of soil which is usually darker in color and loose. WIDROW - A string of large rock buried within engineered fill in accordance with guidelines set forth by the Geotechnical Consultant. OBLIGATIONS OF PARTIES The Geotechnical Consultant should provide observation and testing services and should make evaluations in order to advise the Client on geotechnical matters. The Geotechnical Consultant should report his findings and recommendations to the Client or his authorized representative. The Client should be chiefly responsible for all aspects of the project. He or his authorized representative has the responsibility of reviewing the findings and recommendations of the Geotechnical Consultant. He shall authorize or cause to have authorized the Contractor and/or other consultants to perform work and/or provide services. During grading the Client or his authorized representative should remain on-site or should remain reasonably accessible to all concerned parties in order to make decisions necessary to maintain the flow of the project. The Contractor should be responsible for the safety of the project and satisfactory completion of all grading and other associated operations on construction projects, including but not limited to, earthwork in accordance with the project plans, specifications and controlling agency requirements. During grading, the Contractor or his authorized representative should remain on- site. Overnight and on days off, the Contractor should remain accessible. SITE PREPARATION The Client, prior to any site preparation or grading, should arrange and attend a meeting among the Grading Contractor, the Design Engineer, the Geotechnical Consultant, representatives of the appropriate governing authorities as well as any other concerned parties. All parties should be given at least 48 hours notice. Clearing and grubbing should consist of the removal of vegetation such as brush, grass, wood, stumps, trees, roots of trees, and otherwise deleterious natural materials from the areas to be graded. Clearing and grubbing should extend to the outside of all proposed excavation and fill areas. SG-4 Demolition should include removal of buildings, structures, foundations, reservoir, utilities (including underground pipelines, septic tanks, leach fields, seepage pits, cisterns, mining shafts, - -tunnels, etc.) and other man-made surface and subsurface improvements from the areas to be graded. Demolition of utilities should include proper capping and/or rerouting pipelines at the - project perimeter and cutoff and capping of wells in accordance with the requirements of the governing authorities and the recommendations of the Geotechnical Consultant at the time of demolition. Trees, plants or man-made improvements not planned to be removed or demolished should be protected by the Contractor from damage or injury. Debris generated during clearing, grubbing and/or demolition operations should be wasted from areas to be graded and disposed off-site. Clearing, grubbing and demolition operations should be performed under the observation of the Geotechnical Consultant. The Client or Contractor should obtain the required approvals from the controlling authorities for the project prior, during and/or after demolition, site preparation and removal, etc. The appropriate approvals should be obtained prior to proceeding with grading operations. SITE PROTECTION Protection of the site during the period of grading should be the responsibil:ty of the Contractor. Unless other provisions are made in writing and agreed upon among the concerned parties, completion of a portion of the project should not be considered to preclude that portion or adjacent areas from the requirements for site protection until such time as the entire project is complete as identified by the Geotechnical Consultant, the Client and the regulating agencies. The Contractor should be responsible for the stability of all temporary excavations. Recommendations by the Geotechnical Consultant pertaining to temporary excavations (e.g., backcuts) are made in consideration of stability of the completed project and, therefore, should be considered to preclude, the responsibilities of the Contractor. Recommendations by the Geotechnical Consultant should not be considered to preclude more restrictive requirements by the regulating agencies. Precautions should be taken during the performance of site clearing, excavations and grading to protect the work site from flooding, ponding, or inundation by poor or improper surface drainage. Temporary provisions should be made during the rainy season to adequately direct surface drainage away from and off the work site. Where low areas can not be avoided, pumps should be kept on hand to continually remove water during periods of rainfall. During periods of rainfall, plastic sheeting should be kept reasonable accessible to prevent unprotected slopes from becoming saturated. Where necessary during periods of rainfall, the Contractor should install checkdams, desilting basins, riprap, sand bags, or other devices or methods necessary to control erosion and provide safe conditions. During periods of rainfall, the Geotechnical Consultant should be kept informed by the Contractor as to the nature of remedial preventative work being performed (e.g., pumping, placement of sand bags or plastic sheeting, or other labor, dozing, etc.). Following periods of rainfall, the Contractor should contact the Geotechmcal Consultant and arrange a walk-over of the site in order to visually assess rain related damage. The Geotechnical SG -5 I - Consultant may also recommend excavation, and testing in order to aid in his assessments. At the request of the Geotechnical Consultant, the Contractor shall make excavations in order to - -evaluate the extent of rain related damage. Rain related damage should be considered to include, but may not be limited to, erosion, silting, and saturation, swelling, structural distress and other adverse conditions identified by the Geotechnical Consultant. Soil adversely affected should be classified as Unsuitable Materials and should be subject to overexcavation and replacement with compacted fill or other remedial grading as recommended by the Geotechnical Consultant. Relatively level areas, where saturated soils and/or erosion gullies exists to depths of greater that 1 foot, should be overexcavated to unaffected, competent material. Where less than 1 foot in depth, unsuitable materials may be processed in-place to achieve near optimum moisture conditions, then thoroughly recompacted in accordance with the applicable specifications. If the desired results are not achieved, the affected materials should be overexcavated, then replaced in accordance with the applicable specifications. In slope areas, where saturated soil and/or erosion gullies exist to depths of greater than 1 foot; they should be overexcavated and replaced as compacted fill in accordance with the applicable specifications. Where affected materials exist to depths of 1 foot or less below, proposed finished grade, remedial grading by moisture conditioning in-place followed by thorough recompaction in accordance with the applicable grading guidelines herein may be attempted. If the desired results are not achieved, all affected materials should be overexcavated and replaced as compacted fill in accordance with the slope repair recommendations herein. As field conditions dictate, other slope repair procedures may be recommended by the Geotechnical Consultant. EXCAVATIONS Unsuitable Materials Materials, which are unsuitable, should be excavated under observation and recommendations of the Geotechnical Consultant. Unsuitable materials include, but may not be limited to, dry, loose, soft, wet, organic compressible natural soils and fractured, weathered, soft bedrock and non- engineered or otherwise deleterious fill materials Material identified by the Geotechnical Consultant as unsatisfactory due to its moisture conditions should be overexcavated, watered or dried, as needed, and thoroughly blended to a uniform near optimum moisture condition (per Moisture guidelines presented herein) prior to placement as compacted fill. Cut Slopes Unless other wise recommended by the Geotechnical Consultant and approved by the regulating agencies, permanent cut slopes should not be steeper that 2:1 (horizontal: vertical). If excavations for cut slopes expose loose, cohesionless, significantly fractured or otherwise unsuitable material, overexcavation and replacement of the unsuitable materials with a compacted stabilization fill should be accomplished as recommended by the Geotechnical SG-6 * Consultant. Unless otherwise specified by the Geotechnical Consultant stabilization fill construction should conform to the requirements of the Standard Details. The Geotechnical Consultant should review cut slopes during excavation. The Geotechnical - Consultant should be notified by the contractor prior to beginning slope excavations. If, during the course of grading, adverse or potentially adverse geotechnical conditions are encountered which were not anticipated in the preliminary report, The Geotechnical Consultant I should explore, analyze and make recommendations to threat these problems. When cut slopes are made in the direction of the prevailing drainage, a non-erodible diversion swale (brow ditch) should be provided at the top-of-cut. Pad Areas All lot pad areas, including side yard terraces, above stabilization fills or buttresses should be overexcavated to provide for a minimum of 3-feet) refer to Standard Details) of compacted fill over the entire pad area. Pad areas with both fill and cut materials exposed and pad areas containing both very shallow (less than 3-feet) and deeper fill should be overexcavated to provide for a uniform compacted fill blanket with a minimum of 3-feet in thickness (refer to Standard Details). Cut areas exposing significantly varying material types would also be overexcavated to provide for a least a 3-foot thick compacted fill blanket. Geotechnical conditions may require greater depth of over-excavation. The actual depth should be delineated by the Geotechnical Consultant during grading. For pad areas created above cut or natural slopes, positive drainage should be established away from the top-of-slope. This may be accomplished utilizing a berm and/or an appropriate pad gradient. A gradient in soil areas away from the top-of-slopes of 2 percent or greater is recommended. COMPACTED FILL All fill materials should be compacted as specified below or by other methods specifically recommended by the Geotechnical Consultant. Unless otherwise spccified, the minimum degree of compaction (relative compaction) should be 90 percent of the laboratory maximum density. Placement Prior to placement of compacted fill, the Contractor should request a review by the Geotechnical Consultant of the exposed ground surface. Unless otherwise recommended, the exposed ground surface should then be scarified (6-inches minimum), watered or dried as needed, thoroughly blended to achieve near optimum moisture conditions, then thoroughly comacted to a minimum of 90 percent of the maximum density. The review by the Geotechnical Consultant should not be considered to preclude requirements of inspection and approval by the governing agency. Compacted fill should be placed in thin horizontal lifts not exceeding 8-inches in loose thickness prior to compaction. Each lift should be watered or dried as needed; thoroughly blended to achieve near optimum moisture conditions then thoroughly compacted by mechanical methods to Ii SG-7 H1 a minimum of 90 percent of laboratory maximum dry density. Each lift should be treated in a like manner until the desired finished grades are achieved. The Contractor should have suitable and sufficient mechanical compaction equipment and watering apparatus on the job site to handle the amount of fill being placed in consideration of moisture retention properties of the materials. If necessary, excavation equipment should be "shut down" temporarily in order to permit proper compaction of fills. Earth moving equipment should only be considered a supplement and not substituted for conventional compaction equipment. When placing fill in horizontal lifts adjacent to areas sloping steeper that 5:1 (horizontal to vertical), horizontal keys and vertical benches should be excavated into the adjacent slope area. Keying and benching should be sufficient to provide at least 6-foot wide benches and minimum of 4-feet of vertical bench height within the firm natural ground, firm bedrock or engineered compacted fill. No compacted fill should be placed in an area subsequent to keying and benching until the area has been reviewed by the Geotechnical Consultant. Material generated by the benching operation should be moved sufficiently away from the bench area to allow for the recommended review of the horizontal bench prior to placement of fill. Typical keying and benching details have been included within the accompanying Standard Details. Within a single fill area where grading procedures dictate two or more separate fills, temporary slopes (false slopes) may be created. When placing fill adjacent to a false slope, benching should be conducted in the same manner as above described. At least a 3-foot vertical bench should be established within the firm core of adjacent approved compaëted fill prior to placement of additional fill. Benching should proceed in at least 3-foot vertical increments until the desired finished grades are achieved. Fill should be tested for compliance with the recommended relative compaction and moisture conditions. Field density testing should conform to ASTM Method of Test D 1557-64, D 29922- 78 and/or D 2937-71. Test should be provided for about every 2 vertical feet or 1,000 cubic yards of fill placed. Actual test intervals may vary as field conditions dictate. Fill found not to I be in conformance with the grading recommendations should be removed or otherwise handled as recommended by the Geotechnical Consultant. The Contractor should assist the Geotechnical Consultant and/or his representative by digging test pits for removal determinations and/or for testing compacted fill. As recommended by the Geotechnical Consultant, the Contractor should "shut sown" or remove grading equipment from an area being tested. The Geotechnical Consultant should maintain a plan with estimated locations of field tests. Unless the client provides for actual surveying of test locations, the estimated locations by the Geotechnical Consultant should only be considered rough estimates and should not be utilized for the purpose of preparing cross sections showing test locations or in any case for the purpose of after-the-fact evaluating of the sequence of fill placement. Moisture For field testing purposes, "near optimum" moisture will vary with material type and other ] factors including compaction procedures. "Near optimum" may be specifically recommended in Preliminary Investigation Reports and/or may be evaluated during grading. SG-8 Standard Guidelines For Grading Projects Prior to placement of additional compacted fill following an overnight or other grading delay, the exposed surface or previously compacted fill should be processed by scarification, watered or dried as needed, thoroughly blended to near-optimum moisture conditions, then recompacted to a minimum of 90 percent of laboratory maximum dry density. Where wet or other dry or other unsuitable materials exists to depths of greater than one foot, the unsuitable materials should be overexcavated. Following a period of flooding, rainfall or overwatering by other means, no additional fill should be placed until damage assessments have been made and remedial grading performed as described herein. Fill Material Excavated on-site material which are acceptable to the Geotechnical Consultant may be utilized as compacted fill, provided trash, vegetation and other deleterious materials are removed prior to placement. Where import material are required for use on-site, the Geotechnical Consultant should be notified at least 72 hours in advance of importing, in order to sample and test materials from proposed borrow sites. No import materials should be delivered for use on-site without prior sampling and testing by Geotechnical Consultant. Where oversized rock or similar irreducible material is generated during grading, it is recommended, where practical, to waste such material off-site or on-site in areas designated as "nonstructural rock disposal area". Rock placed in disposal areas should be placed with sufficient fines to fill voids. The rock should be compacted in lifts to an unyielding condition. The disposal area should be covered with at least 3 feet of compacted fill, which is free of oversized material. The upper 3 feet should be placed in accordance with the guidelines for compacted fill herein. Rocks 12 inches in maximum dimension and smaller may be utilized within the compacted fill, provided they are placed in such a manner that nesting of the rock is avoided. Fill should be placed and thoroughly compacted over and around all rock. The amount of rock should not exceed 40 percent by dry weight passing the %-inch sieve size. The 12-inch and 40 percent recommendations herein may vary as field conditions dictate. During the course of grading operations, rocks or similar irreducible materials greater than 12- inches maximum dimension (oversized material) may be generated. These rocks should not be JJ placed within the compacted fill unless placed as recommended by the Geotechnical Consultant. fl Where rocks or similar irreducible materials of greater than 122-inches but less than 4 feet of Li maximum dimension are generated during grading, or otherwise desired to be placed within an engineered fill, special handling in accordance with the accompanying Standard Details is recommended. Rocks greater than 4 feet should be broken down or disposed off-site. Rocks up to 4 feet maximum dimension should be placed below the upper 10 feet of any fill and should not be closer than 20-feet to any slop face. These recommendations could vary as locations of improvements dictate. Where practical, oversized material should not be placed below areas where structures or deep utilities are proposed. Oversized material should be placed in windrows on a clean, overexcavated or unyielding compacted fill or firm natural ground surface. Select native or imported granular soil (S.E. 30 or higher) should be placed and thoroughly flooded over and around all windrewed rock, such that voids are filled, Windrows of oversized material should be staggered so that successive strata of oversized material are not in the same vertical plane. It may be possible to dispose of individual larger rock as field conditions dictate and as recommended by the Geotechnical Consultant at the time of placement. Material that is considered unsuitable by the Geotechnical Consultant should not be utilized in the compacted fill. During grading operations, placing and mixing the materials from the cut and/or borrow areas may result in soil mixtures which possess unique physical properties. Testing may be required of samples obtained directly from the fill areas in order to verify conformance with the specifications. Processing of these additional samples may take tow or more working days. The Contractor may elect to move the operation to other areas within the project, or may continue placing compacted fill pending laboratory and field test results. Should he elect the second alternative, fill placed is done so at the Contractor's risk. Any fill placed in areas not previously reviewed and evaluated by the Geotechnical Consultant, and/or in other areas, without prior notification to the Geotechnical Consultant may require removal and recompaction at the Contractor's expense. Determination of overexcavation should be made upon review of field conditions by the Geotechnical Consultant. Fill Slopes Unless otherwise recommended by the Geotechnical Consultant and approved by the regulating agencies, permanent fill slopes should not be steeper than 2:1 (horizontal to vertical). Except as specifically recommended otherwise or as otherwise provided for in these grading guidelines (Reference Fill Materials), compacted fill slopes should be overbuilt and cut back to grade, exposing the firm, compacted fill inner core. The actual amount of overbuilding may vary as field conditions dictate. If the desired results are not achieved, the existing slopes should be overexcavated and reconstructed under the guidelines of the Geotechnical Consultant. The degree of overbuilding shall be increased until the desired compacted slope surface condition is achieved. Care should be taken by the Contractor to provide thorough mechanical compaction to the outer edge of the overbuilt slope surface. Although no construction procedure produces a slope free from risk of future movement, overfilling and cutting back of slope to a compacted inner core is, given no other constraints, the most desirable procedure. Other constraints, however, must often be considered. These constraints may include property line situations, access, and the critical nature of the development and cost. Where such constraints are identified, slope face compaction may be attempted by conventional construction procedures including backrolling techniques upon specific recommendation by the Geotechnical Consultant. SG- 10 As a second best alternative for slopes of 2:1 (horizontal to vertical) or flatter, slope construction may be attempted as outlined herein. Fill placement should proceed in thin lifts, (i.e., 6 to 8 inch loose thicknesses). Each lifts should be moisture conditioned and thoroughly compacted. The desired moisture condition should be maintained and/or reestablished, where necessary, during the period between successive lifts. Selected lifts should be tested to ascertain that desired U compaction is being achieved Care should be taken to extend compactive effort to the outer edge of the slope. Each lift should extend horizontally to the desired finished slope surface or more as needed to ultimately establish desired grades. Grade during construction should not be allowed to roll off at the edge of the slope. It may be helpful to elevate slightly the outer edge of the slope. Slough resulting from the placement of individual lifts should not be allowed to drift down over previous lifts. At intervals not exceeding 4 feet in vertical slope height or the capability of available equipment, whichever is less, fill slopes should be thoroughly backrolled utilizing a conventional sheepsfoot-type roller. Care should be taken to maintain the desired fl moisture conditions and/or reestablishing same as needed prior to backrolling. Upon achieving final grade, the slopes should again be moisture conditioned and thoroughly backrolled. The use of a side-boom roller will probably be necessary and vibratory methods are strongly recommended. Without delay, so as to avoid (if possible) further moisture conditioning, the slopes should then be grid-rolled to achieve a relatively smooth surface and uniformly compact condition. In order to monitor slope construction procedures, moisture and density tests will be taken at regular intervals. Failure to achieve the desired results will likely result in a recommendation by the Geotechnical Consultant to overexcavation the slope surfaces followed by reconstruction of the slopes utilizing overfilling and cutting back procedures and/or further attempt at the conventional backrolling approach. Other recommendations may also be provided which would be commensurate with field conditions. Where placement of fill above a natural slope or above a cut slope is proposed, the fill slope configuration as presented in the accompanying Standard Details should be adopted. For pad areas above fill slopes, positive drainage should be established away from the top-of- slope. This may be accomplished utilizing berm and pad gradients of at least 2 percent in soil areas. Off-Site Fill Off-site fill should be treated in the same manner as recommended in these specifications for site preparation, excavation, drains, compaction, etc, Off-site canyon fill should be placed in preparation for future additional fill, as shown in the accompany Standard Details. Off-site fill subdrains temporarily terminated (up canyon) should be surveyed for future relocation and connection. DRAINAGE Canyon subdrain systems specified by the Geotechnical Consultant should be installed in accordance with the Standard Details. SG- 11 LA Typical subdrains for compacted fill buttresses; slope stabilization or sidehill masses should be r. installed in accordance with the specifications of the accompanying Standard Details. H Roof, pad and slope drainage should be directed away from slopes and areas of structures to - suitable disposal areas via non-erodible devices (i.e., gutters, downspouts, concrete swales). For drainage over soil areas immediately away from structures (i.e, within 4 feet), a minimum of 4 percent gradient should be maintained. Pad drainage of at least 2 percent should be maintained over soil areas. Pad drainage may be reduced to at least 1 percent for projects where no slopes exist, either natural or man-made,' - or greater than 10-feet in height and where no slopes are planned, natural or man-made, steeper than 2:1 (horizontal to vertical slope ratio). Drainage patterns established at the time of fine grading should be maintained throughout the life fl of the project. Property owners should be made aware that altering drainage patterns could be detrimental to slope stability and foundation performance. STAKING In all fill areas, the fill should be compacted prior to the placement of the stakes. This particularly is important on fill slopes. Slope stakes should not be placed until the slope is thoroughly compacted (backrolled). If stakes must be placed prior to the completion of compaction procedures, it must be recognized that they will be removed and/or demolished at such time as compaction procedures resume. In order to allow for remedial grading operations, which could include overexcavations or slope stabilization, appropriate staking offsets should be provided. For finished slope and stabilization backcut areas, we recommend at least a 10-feet setback from proposed toes and tops-of-cut. SLOPE MAINTENANCE Landscape Plants In order to enhance surficial slope stability, slope planting should be accomplished at the completion of grading. /slope planting should consist of deep-rooting vegetation requiring little watering. Plants native to the southern California area and plants relative to native plants are generally desirable. Plants native to other semi-arid and and areas may also be appropriate. A Landscape Architect would be the best party to consult regarding actual types of plants and planting configuration. Irrigation Irrigation piper should be anchored to slope faces, not placed in trenches excavated into slope faces. Slope irrigation should be minimized. If automatic timing devices are utilized on irrigation systems, provisions should be made for interrupting normal irrigation during periods of rainfall. Through not a requirement, consideration should be given to the installation of near-surface moisture monitoring control devices. Such devices can aid in the maintenance of relatively uniform and reasonably constant moisture conditions. SG - 12 Property owners should be made aware that overwatering of slopes is detrimental to slope stability. Maintenance Periodic inspections of landscaped slope areas should be planned and appropriate measures should be taken to control weeds and enhance growth of the landscape plants. Some areas may require occasional replanting and/or reseeding. Terrace drains and downdrains should be periodically inspected and maintained free of debris. Damage to drainage improvements should be repaired immediately. Property owners should be made aware that burrowing animals could be detrimental to slope stability. A preventative program should be established to control burrowing animals. p As a precautionary measure, plastic sheeting should be readily available or kept on hand; to J protect all slope areas from saturation by periods of heavy or prolonged rainfall. This measure is strongly recommended, beginning with the period of time prior to landscape planting. Repairs If slope failures occur, the Geotechnical Consultant should be contracted for a field review of site conditions and development of recommendations for evaluation and repair. If slope failures occur as a result of exposure to periods of heavy rainfall, the failure area and currently unaffected areas should be covered with plastic sheeting to pro:ect against additional saturation. In the accompanying Standard Details, appropriate repair procedures are illustrated for superficial slope failures (i.e. occurring typically within the outer 1 foot to 3 feet of a slope face). TRENCH BACKFILL Utility trench backfill should, unless otherwise recommended, be compacted by mechanical means. Unless otherwise recommended, the degree of compaction should be a minimum of 90 percent of the laboratory maximum density. As an alternative, granular material (sand equivalent greater than 30) may be thoroughly jetted in-place. Jetting should only be considered to apply to trenches no greater than 2 feet in width and 4 feet in depth. Following jetting operations, trench backfill 3h0u1d be thoroughly mechanically compacted and/or wheel-rolled from the surface. Within slab areas, but outside the influence of foundations, trenches up to 1 foot wide and 2 feet deep may be backfihled with sand and consolidated by jetting, flooding or by mechanical means. If on-site materials are utilized, they should be wheel-rolled, tamped or otherwise compacted to a firm condition. For minor interior trenches, density testing may be deleted or spot testing may be elected if deemed necessary, based on review of backfill operations during construction. SG - 13 If utility contractors indicate that it is undesirable to use compaction equipment in close r - proximity to a buried conduit, the Contractor may elect the utilization of light weight mechanical compaction equipment and/or shading of the conduit with clean, granular material, which should be thoroughly jetted in-place above the conduit, prior to initiating mechanical compaction procedures. Other methods of utility trench compaction may also be appropriate, upon review by the Geotechnical Consultant. Clean Granular backfill and/or bedding are not recommended in slop areas unless provisions are made for a-drainage system to mitigate the potential build-up seepage forces. STATUS OF GRADING Prior of proceeding with any grading operation, the Geotechnical Consultant should be notified fl at least two working days in advance in order to schedule the necessary observation and testing Li services. Prior to any significant expansion or cut back in the grading operation, the Geotechnical J Consultant should be provided with adequate notice (i.e., two days) in order to make appropriate adjustments in observation and testing services. Following completion of grading operations and/or between phases of a grading operation, the Geotechnical Consultant should be provided with at least two working days notice in advance of commencement of additional grading operations. SG- 14 DIAMETER PERFORATED PIPE SAC:<DAAIN DIAMETER NON-PERFORATED PIPE LATERAL DRAIN SLOPE PER PLAU, IS• MINIMUM-'\ "I SE N C H I N G /2 PROVIDE BACK DRAIN PER BACKDRAIN DETAIL. AN AD0ITONAL BACK DRAIN AT MID-SLOPE WILL BE REQUIRED FOR SLOPE IN EXCESS OF 40 FEET HIGH. KEY-DI-MENSION PER SOILS ENGINEER (GENERALLY 1/2 SLOPE HEIGHT, 1 MINIMUM) TYPICAL STABILIZATION FILL DETAIL ProfesscnaI Service IndUStXieS TYPICAL BUTTRESS FILL DETAIL ProlessSonal Service tndues BACDRAIN DETAIL. AN ADDITIONAL BACXDRAIN AT MW-SLOPE WILL BE REQUIRED FOR BACK SLOPES IN EXCESS OF 40 FEET HIGH. LOCA- TIONS OF BACKDRAINS AND OUTLETS PER SOILS ENGINEER AND/OR EN- GINEERING GEOLOGIST DURING GRADING. BASE WIDTH 'W DETERMINED BY SOILS ENGINEER TYPICAL SHEAR KEY DETAIL ProfesscnaI SeMce Industries FINAL LIMIT OF DAYLIGHT EXCAVATION LINE FINISH PAD OVEREXCAVATE 3' AND REPLACE WITH COMPACTD FILL 20' MAXIMUM - \ - SOUND EEROCK - I - - OVERBURDEN PROVIDE BACKDRAIN PER BACKDRAIN -2' MINIMUM TYPICAL BENCHING OUTLETS PER SOILS ENGINEER AND/OR DETAIL. LOCATION OF BACKDRAIN AND ENGINEERING GEOLOGIST DURING GRADING EOUIPMENT WIDTH (MINIMUM 15'1 DAYLIGHT SHEAR KEY DETAIL ProfessonaI Service Indusbies p ,-SURFACE OF / FIR.4 EARTH / COMPACTED FILL /\\ \ TYPICAL BENCHING-' // R EMOVE UNSUITABLE MATE R I A L I ''-INCLINE TOWARD DRAIN SEE DETAILS BELOW TRENCH DETAIL 6' MINIMUM CVERLAP tlr-MINIMUM 9 F73 PER LINEAL CFTIONAL 'I—DI C DE iIL FOOT OF APPROVED DRAIN Al MATERIAL SUPAC 8-P FABRIC-' SUPAC -P FAERIC OR OR APPROVED EQUAL APPROVED EQUAL 6 MINIMUM OVERLAP _ 24' I I MINIMUM'( 24' \ '-MINIMUM 9 FT3 PER LINEAL FOOT MINIMUM \ OF APPROVED DRAIN MATERIAL 60° TO 90° DRAIN MATERIAL TO MEET FOLLOWING SPECIFICATION OR APPROVED EQUAL: SIEVE SIZE PERCENTAGE PASSING 1 1/2' 88-100 0-17 3/8' 0-7 NO200 0-3 ADO MINIMUM 4' DIAMETER APPROVED PERFORATED PIPE WHEN GRADIENT IS LESS THAN 2% APPROVED PIPE TO BE SCHEDULE 40 POLY-VINYL- CHLORIDE (P.V.C.) OR APPROVED EQUAL. MINIMUM CRUSH STRENGTH 1000 pL GEOFABRIC SUBDRAIN DETAIL Prolessional Ser*e tndusbes FINISH SURFACE SLOPE 3 FT3 MINIMUM PER LINEAL FOOT APPROVED FILTER ROCK COMPACTED FILL Aj -. 2% MINIMUj GRADIENT 4' MINIMUM DIAMETER SOLID OUTLET PIPE SPACED PER SOIL ENGINEER REQUIRE- MENTS DURING GRADING '-4' MINIMUM APPROVED PERFORATED PIPE (PERFORATIONS DOWN) MINIMUM 2% GRADIENT TO OUTLET 'BENCH INCLINED TOWARD DRAIN TYPICAL BENCHING DETAIL A—A 7-TEMPORARY FILL LEVEL COMPACTED 4' MINIMUM DIAMETER BACKFILL APPROVED SOLID OUTLET PIPE 12' MINIMUM COVER 12' MINIMUM *FILTER ROCK TO MEET FOLLOWING SPECIFICATIONS OR APPROVED EQUAL: SIEVE PERCENTAGE PASSING 1' 100 *APPROVED PIPE TYPE: 314' 90-100 SCHEDULE 1,0 POLYVINYL CHLORIDE 3/8' 40-100 (P.V.C.) OR APPROVED EQUAL. NO.4 25-40 MINIMUM CRUSH STRENGTH 1000 PSI. NO.30 5-15 NO.50 0-7 140.200 0-3 TYPICAL BACKDRAIN DETAIL Professona Service Industries FINAL NATURAL SLOPE LIMITS OF FINAL EXCAVATION TOE OF SLOPE SHOWN ON GRADING PLAN FILL 10' TYPICAL EENCH YllDT'X VARIES COMPETENT EARTH MATERIAL --- - - MI N I ?.4 U.1.4 DO WNS LOPE KEY DEPTH 5% - 223M I\ TYPICAL. BENCH 15 MINIMUM BASE KEY WIDTH.i'\ HEIGHT PROVIDE BACKDRAIN AS REQUIRED PER RECOM- MENDATIONS OF SOILS ENGINEER DURING GRADING WHERE NATURAL SLOPE GRADIENT IS 5:1 OR LESS. BENCHING IS NOT NECESSARY. HOWEVER, FILL IS NOT TO BE PLACED ON COMPRESSIBLE OR UNSUIT- ABLE MATERIAL. FILL SLOPE ABOVE NATURAL GROUND DETAIL Professional Service Inc1ustiies REMOVE ALL TOPSOIL. COLI.UVILJM AND CREEP MATERIAL. FROM I ft At I S IT I 0 II CUT/FILL CO1ITACT SIIOWU Oil GRADING I'LAtl FILl. - - - CUT/FILL COnTACT SIIOWU tO Ott AS-DLJILT - I t JfTYPICAL 10 TYPICAL—/* 11ATIIR Al. TOPOGR APIly - - - I }15' MIUII.ILIM_j' 'I I ---- SL OPE JIEDROC GOT SL IC On APIflOVED FOULIDATIOI1 MATERIAl. NOTE: CLII SLOPE pOflhloll SIIAI.t. lIE MADE P111011 TO PLACEMEUT OF FILL FILL SLOPE ABOVE CUT SLOPE DETAIL rI%,tJ Idi U1UIUI FINISH SURFACE SLOPE V MINIMUM 3 FT3 PER LINEAL FOCI OPEN GRADED AGGREGATE* TAPE AND SEAL AT CONTACT - COMPACTED FILL --------2% MINIMUM 1GRAO lENT A- 4• MINIMUM DIAMETER SOLID OUTLET PIPE SPACED PER SOIL ENGINEER REQUIREMENTS SUPAC 8-P FABRIC OR APPROVED EQUAL \ MINIMUM APPROVED \ PERFORATED PIPE \ (PERFORATIONS DOWN) \ MINIMUM 2% GRADIENT \ TO OUTLET SENCH INCLINED TYPICAL TOWARD DRAIN BENCHING DETAIL A-A TEMPORARY FILL LEVEL I COMPACTED MINIMUM BAC-XFILL 12 COVER MINIMUM 4" DIAMETER APPROVED SOLID OUTLET PIPE MINIMUM * NOTE: AGGREGATE TO MEET FOLLOWING SPECIFICATIONS OR APPROVED EQUAL: SIEVE SIZE PERCENTAGE PASSING 1 112" 100 1" 5-40 3/4" 0-17 318 0-7 NO. 200 0-3 BACKDRAIN DETAIL (GEOFABRIC) Professional SeMce tndusbies BUILDING FINISHED GRADE SLOPE FACE \,—WINDROW 5' OR BELOW DE?TH OF DEEPEST UTILITY TRENCH (WHICHEVER GREATER) TYFtCAL WINDROW DETAIL (EDGE VIEW) GRANULAR SOIL FLOODED TO FILL VOIDS HORIZONTALLY PLACED \ COMPACTION FILL PROFILE VIEW ROCK DISPOSAL DETAIL r—CLEAR AREA FOR FOUNDATION, UTILITIES. '° AND SWIMMING POOLS cc 0 - 0 0 15 —71 TSTREET— rTU1UI1dl aervice inuusm CUT LOT — — — TOPSOIL. COLL'JVIUM AND WEATHERED BEDROCK -- - - - -. - __--- ORIGNAL GROUND - - - OVEREXCAVATE AND -.------ UNWEATHERED BEDROCK REGRADE CUT/FILL LOT (TRANSITION) I ORIGINAL GROUND — — — - H — — - COMPACTED FILL \-OVE=I REGRADE EXCAVATE AND — — — — TOPSOIL ..-COLLUVIUM AND WEATHERED UNWEATHERED BEDROCK BEDROCK — TRANSITION LOT DETAIL MINIMUM 9 FT PER LINEAR F' OF APPROVED FILTER MATERL ER MATERIAL BEDDING I 14 I MINIMUM'f' MUM . DIAMETER APPROVED ORATED PIPE (PERFORATIONS N) Prossona Seè4ce Industries SURFACE OF FIRM EARTH MATERIAL N COMPACTED FILL TYF!CAL !ENc:ING- /1REMOVE UNSUITABLE MATERIAL INCLINE TOWARD DRAIN SEE DETAIL BELOW DETAIL FILTER MATERIAL TO MEET FOLLOWING SP!CF1CATION OR APPROVED EQUAL: SIEVE SIZE 1 100 3/4 90-100 3/8 40-100 NO.4 25-40 NO.20 5-15 NO.50 0-7 NO .200 0-3 APPROVED PIP! TO BE SCHEDULE 40 POLY-VINYL-CHLORIDE (P.V.C.) OR APPROVED EQUAL. MINIMUM CRUSH STRENGTH 1000 pal PIPE DIAMETER TO MEET THE FOLLOWING CRITERIA. SUSJEC-rTO FIELD REVIEW BASED ON ACTUAL GEOTECHNICAL CONDITIONS ENCOUNTERED DURING GRADING LENGTH OF RUN PIP! DIAMETER UPPER 503' 4- NEXT 1003' 6. >1500' B. TYPICAL CANYON SUBDRAIN DETAIL JUL-03-2000 03:42 PM SAMUEL.B.WRIGHT 760 720 7634 P.01 FAX TO: NAME: g City of Carlsbad FAX.: 2.. PHONE: NO. OF PAGES:______ - - MechaIica1 Worksheet DATE:_ ______ _ oject.Address 1 C' Permit No. Questions below refer to work being done for this permit only. Number of new or relocated fixtures, traps, or floor drains? New building sewer line Number of roof drains? Install/alter water line? Number of water heaters? Number of hose bibs? Gas piping system - Number of new or relocated gas outlets New water meter - '1 Yes No____ Yes__Nok ØMI.-r. I ..r . Install_ Repair •' 0••, :.... I. No. of - Size A14T1 Potable Irrigation ElectTicai Number of new panels or subpanels? Size of New Service O#ivtp - !A 1'1 Single Phase Size • Number of amperes - Three Phase 13 . . S Number of amperes Three Phase - 480 . S Number of amperes - Remodel (relocate existing outlets/switches or add outlets/switches Yes No -. Mechankal Number of furnaces, A/C, or heat pumps? . Number of fireplaces? - Number of exhaust fans? . Number of exhaust hoods? Number of boilers or compressors? Number of HP? New or relocated duct work? Yes 4No BEFORE THE PERMIT CAN BE FEE'D OUT THIS FORM NEEDS TO RE RETURNED TO THE BUILDING DEPARTMENT - FAX NTJMI1E1 (760) 602-8553. City of Carlsbad S UBuilding IJDepart ment' iU CERTIFICATE OF COMPLIANCE PAYMENT OF SCHOOL FEES OR OTHER MITIGATION This form must be completed by the City, the applicant, and the appropriate school districts and returned to the City prior to issuing a building permit. The City will not issue any building permit without a completed school fee form. Project Name: Building Permit Plan Check Number: Project Address: / 3 7( L _" A.P.N.: oc - V. ô -vo Project Applicant (Owner(s) Name(s)) /97/72 Project Description:— 2-,/ t d4 Building Type: Residential Number of New Dwelling Units S Square Feet of Living Area in New Dwelling Second Dwelling Unit: Square Feet of Living Area in SDU Res. Additions: Net Square Feet New Area / 25 Comerc./ Ind.: S are Feet Floor Area City' Certification of APcanVs information: (4SHO!O~LDISTRICTS ~Z m4.Date: 61 WITHIN TJE CITY OF CARLSBAD / Carlsbad Unified School District San ~ rcoo Unified School District 801 Pine Ave. 215 a Cadsbad CA 92009729-9291 San CA 92069 (736-2200) EncitasUioWSFooiitrict San Dieguito Union High School District 101 South Ranch Santa Fe Rd 710 Encinitas Blvd. Encinitas, CA 92024 (944-4300) Encinitas, CA 92024 (753-6491) Certification of Applicant /Owners. The person executing this declaration ("Owner") certifies under penalty of perjury that (1) the information provided above is correct and true to the best of the Owner's knowledge, and that the Owner will file an amended certification of payment and pay the additional fee if Owner requests an increase in the number of dwelling units or square footage after the building permit is issued or if the initial determination of units or square footage is found to be incorrect, and that (2) the Owner is the owner/ developer of the above described project(s), or that the person executing this declaration is authorized to sign on behalf of the Owner. A SiDnature: Date: 2075 Las Palmas Dr. • Carlsbad, CA 92009-1576 • (760) 438-1161 • FAX (760) 438-0894 Revised 3-18-99 SCHOOL DISTRICT SCHOOL FEE CERTIFICATION (To be completed by the school district(s)) THIS FORM INDICATES THAT THE SCHOOL DISTRICT REQUIREMENTS FOR THE PROJECT HAVE BEEN OR WILL BE SATISFIED. SCHOOL DISTRICT: The undersigned, being duly authorized by the applicable School District, certifies that the developer, builder, or owner has satisfied the obligation for school facilities. This is to certify that the applicant listed on page 1 has paid all amounts or completed other applicable school mitigation determined by the School District. The City may issue building permits for this project. SIGNATURE OF AUTHORIZED SCHOOL DISTRICT OFFICIAL TITLE NAME OF SCHOOL DISTRICT DATE (rk1rd ifd Srhf,.ol District I &11 Pe 11venue PHONE NUMBER 9/, . 0