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BLD20110852.pdfIII lil III �410+ CITY OF EDMONDS 121 5TH AVENUE NORTH - EDMONDS, WA 98020 PHONE: (425) 771-0220 - FAX: (425) 771-0221 STATUS: ISSUED 12/22/2011 Expiration Date: Parcel No: 00705100000200 RICHARD & BARBARA STUART RICHARD & BARBARA STUART CAREY BROTHERS ROCKERIES LLC PO BOX 236 PO BOX 236 19622 SR 9 SE EDMONDS, WA 98020 EDMONDS, WA 98020 SNOHOMISH, WA 98296 (425)771-4548 (425)771-4548 (425)481-0788 LICENSE #: CAREYBR936BC EXP: 1/7/2013 REPLACE FAILED ROCKERY (SUPPORTING DRIVEWAY) WITH A RETAINING WALL. VALUATION: $0.00 ( OMPLETED PERMIT TYPE: Residential PERMIT GROUP: 58 - Retaining Wall/Bulkhead GRADING: N CYDS: 0 TYPE OF CONSTRUCTION: RETAINING WALL ROCKERY: Y OCCUPANT GROUP: OCCUPANT LOAD: FENCE: N ( 0 X 0 FT.) CODE: 09 OTHER: N ------ OTHER DESC: ZONE: NUMBER OF STORIES: 0 1 VESTED DATE: NUMBER OF DWELLING UNITS: 0 LOT #: BASEMENT: 0 1ST FLOOR: 0 2ND FLOOR: 0 BASEMENT: 0 IST FLOOR: 0 2ND FLOOR: 0 3RD FLOOR: 0 GARAGE: 0 ' DECK: 0 OTHER: 0 13RD FLOOR: 0 GARAGE: 0 DECK: 0 OTHER: 0 PRONTSETBACK SIDESITIIA(�k REAR SETBACK REQUIRED: PROPOSED: REQUIRED: PROPOSED: RE UIRED: PROPOSED: HEIGHT ALLOWED:O PROPOSED:O REQUIRED: PROPOSED: SETBACK NOTES: I AGREE TO COMPLY WITH CITY AND STATE LAWS REGULATING CONSTRUCTION AND IN DOING THE WORK AUTHORIZED THEREBY, NO PERSON WILL BE EMPLOYED IN VIOLATION OF THE LABOR CODE OF THE STATE OF WASHINGTON RELATING TO WORKMEN'S COMPENSATION INSURANCE AND RCW 18:27. THIS APPLICATI A PERMIT TQ. SIGNED BY THE BUILDING OFFICIAL OR HIS/HER DEPUTY AND ALL FEES ARE PAID. /C IAzzl& 4 Si ure Print Name Date Released Ery Date ATTENTION IT IS UNLAWFUL TO USE OR OCCUPY A BUILDING OR STRUCTURE UNTIL A FINAL INSPECTION HAS BEEN MADE AND APPROVAL OR A CERTIFICATE OF OCCUPANCY HAS BEEN GRANTED. UBC109/ IBCI 10/ IRC110. = ONLINE = APPLICANT = ASSESSOR = OTHER STATUS: ISSUED BLD20110852 • Geotech of record to identify the location of the spreader trench. Asbuilt shall be provided by geotech of record prior to final. • Final approval on a project or final occupancy approval must be granted by the Building Official prior to use or occupancy of the building or structure. Check the job card for all required City inspections including final project approval and final occupancy inspections. • Any request for alternate design, modification, variance or other administrative deviation (hereinafter "variance") from adopted codes, ordinances or policies must be specifically requested in writing and be called out and identified. Processing fees for such request shall be established by Council and shall be paid upon submittal and are non-refundable. • Approval of any plat or plan containing provisions which do not comply with city code and for which a variance has not been specifically identified, requested and considered by the appropriate city official in accordance with the appropriate provision of city code or state law does not approve any items not to code specification. • Sound/Noise originating from temporary construction sites as a result of construction activity are exempt from the noise limits of ECC Chapter 5.30 only during the hours of 7:00am to 6:00pm on weekdays and I0:00am and 6:00pm on Saturdays, excluding Sundays and Federal Holidays. At all other times the noise originating from construction sites/activities must comply with the noise limits of Chapter 5.30, unless a variance has been granted pursuant to ECC 5.30.120. • Applicant, on behalf of his or her spouse, heirs, assigns, and successors in interests, agrees to indemnify defend and hold harmless the City of Edmonds, Washington, its officials, employees, and agents from any and all claims for damages of whatever nature, arising directly or indirectly from the issuance for this permit. Issuance of this permit shall not be deemed to modify, waive or reduce any requirements of any City ordinance nor limit in any way the City """"s ability to enforce any ordinance provision. • Maintain minimum 2ft. shy distance from structure to paved surface as required per approved plans. • Maintain erosion & sedimentation control per city standards. • Applicant shall repair/replace all damage to utilities or frontage improvements in City right-of-way per City standards that is caused by or occurs during the permitted project. THIS PERMIT AUTHORIZES ONLY THE WORK NOTED. THIS PERMIT COVERS WORK TO BE DONE ON PRIVATE PROPERTY ONLY. ANY CONSTRUCTION ON THE PUBLIC DOMAIN (CURBS, SIDEWALKS, DRIVEWAYS, MARQUEES, ETC.) WILL REQUIRE SEPARATE PERMISSION. PERMIT TIME LIMIT: SEE ECDC 19.00.005(A)(6) BUILDING (425) 771-0220 EXT. 1333 1 ENGINEERING (425) 771-0220 EXT. 1326 1 FIRE (425) 775-7720 PUBLIC WORKS (425) 771-0235 1 PRE-TREATMENT 425) 672-5755 1 RECYCLING 425) 275-4801 When calling for an inspection please leave the following information: Permit Number, Job Site Address, Type of Inspection beine reauested. Contact Name and Phone Number. Date Prefereed. and whether you Drefer mornine or afternoon. • E -Erosion Control/Mobilization • E -Spreader Trench • E -Engineering Final • B -Footings • B -Foundation Drainage • B -Retaining Wall • B -Building Final ]SIU & A SO(:L&TES. INC. --SITE PLM STUART RESIDENCE 1109 -12TH AVENUE NORTH EDMOND ASHIN. GTON 4 OF EDIVo 4,° SPECIAL INSPECTION AND TESTING AGREEMENT Permit #: /./— p 9 S.:P Project: est. 189 Prior to issuance of a permit, this form must be completed in its entirety and returned to the City for approval. The completed form inust have signatures of acknowledgment by all parties. DUTIES AND RESPONSIBILITIES Special Inspection Firm and Special Inspectors: The Special Inspection firm of will perform special inspection for the following types of work (separate forms must be submitted if more than one firm is to be employed): ❑ Reinforced Concrete ❑ Bolting in Concrete ❑ Prestressed Concrete ❑ Shotcrete ❑ Structural Masonry ❑ Structural Steel/Welding ❑ High Strength Bolting ❑ Spray applied Fireproofing ❑ Smoke Control Systems ❑ Lateral Wood ❑ Structural Observation lei Grading/soils Other ❑ Other All individual inspectors to be employed on this project will be WABO certified for the type of work they are to inspect. If inspection is for work that is not covered by the WABO categories, or the inspector is not WABO certified, a detailed resume of the inspector and firm must be submitted. The resume must show that the inspector and the firm are qualified by education and experience to perform the work and testing required by the project design and specifications. The work shall be inspected for conformance with the plans and specifications approved by the City. Revisions and addenda sheets will not be used for inspection, unless they have been approved by the City. Inspection records shall include: A daily record to be maintained on site, itemizing the inspections performed. Any nonconforming work, shall be brought to the immediate attention of the contractor for resolution. A weekly report shall be submitted to the City; detailing the inspections and testing performed, listing any nonconforming work and resolution of nonconforming items. A final report shall be submitted to the building department prior to the Certificate of Occupancy being issued. This report will indicate that inspection and testing was completed in conformance with the approved plans, specifications and approved revisions or addenda. Any unresolved discrepancies must be detailed in the final report. L-ABuilding New Folder 2010\FomislSpecial inspection forTn.docl0/25/2010 I 'Q or j,�C—CY ol, WOT'K -,—;IMILM�;.! pla-, 6n," spm,, l�'�c 0 n,'na :,r s rn, i x n A' ,,i -pec, i or, rrx) rl T, ncoc"n.4, are �n zL-,.t7or tbx n'A-n"al Vtc'j, "or tht" .'iCv to 7,4-1 cd o, er cc"vercc, ur, ap7rc val itr OY tly S:aj! I, j,rs arsrl," 'A "A il—(121Mo—f,, —"Oj Ah i a c w J early jn&catc f.r. 1"m -lwr,.. anc spc,.. a�,.on.. rIA" StVcltV rct—icd ant� in, ","w" d%dl , �,,-x i - and -m;luT,-,g �,nL rc&mfbn ,-4,nd addcnda o 'c .,, m ,u,wh M aas imu-,.hat n C,7 thc ro-mons in" ner: Tre --ecz cir he rrr^ enjp� r"', 0,, ft I- �N C 0 "V-, ENFORCEMENT A ....c or 4'mn 'o 'k"IL-p ng with. 'hc p'aun ct th, i.oc urncn.t, rnay vo id th ug. m w' t aId O's, Bui, d, inq ()f fic Ia 's �U'n v'-4111 C, -PIC CiA I'll L"ll e "I spt I ms 'n i"%t4?. ,—,, V 4 a-pprv, A M" this '-'tav - pZ0 o,cr-wc A C KNOWL EDGM CNTJ"� haV" a--, r"er To k,np 1" th th c w-rn 4:-,,J 'con s cl "o ol A.— j - 1-57 Liu F Y "44 I , I�, ,,,�' -',z s:,, 1,MlvtW!n u'c;,, 0", i' ("DueGroup Northwest, IncGeotechnical Engineers, Geologists • &Environmental Scientists March 14, 2012 G-3239 Mr. Richard Stuart 1109 - 12" Avenue North Edmonds, WA 98020 email: rbstuart88@gmail.com Subject: Summary Letter Retaining Wall Construction Monitoring 1109 - 12th Avenue North Edmonds, WA 98020 Dear Mr. Stuart: At the request of your contractor Mr. Darrald Carey, Mr. William Chang from GEO Group Northwest, Inc., visited the subject site between January 12 and February 7, 2012 to perform geotechnical construction monitoring of the 16 foot tall geogrid reinforced cement block wall. Items inspected during our site visits, included: a) erosion control fence, b) drainage spreader trench, c) foundation subgrade for the wall, d) foundation drainage measures including filter fabric placement, perforated drain pipe and crushed rock backfill placement, e), f) retaining wall construction with geogrid reinforcement and crushed rock backfill, g) final wall inspection. Based on our site visits on 1/12/12, 1/23/12, and 2/7/12, we have concluded that the construction of the geogrid reinforced cement block wall is in accordance with the City of Edmonds approved plans. If you have any questions regarding this evaluation, please call. Sincerely, GEO Group Northwest, Inc. William Chang, P.E. Principal Engineer \; C Nq N\; AS � o co tr +O 9 20tt4 0 ? 9FGtSTE�� C?� SSS/ONA\ � 13240 NE 20th Street, Suite 10 Bellevue, Washington 98005 Phone 425/649-8757 Fax 425/649-8758 RECEIVED MAR 16 2012 DEVELOPMENT SERVICES COUNTER ��c. 189v Construction Progress Card City of Edmonds 121 5th Ave N Edmonds WA 98020 Call 24 hours in advance for inspections B -building: (425) 771-0220 ext 1333 F - fire: (425) 775-7720 E -engineering: (425) 771-0220 ext 1326 P - planning: (425) 771-0220 Project: REPLACE FAILED ROCKERY (SUPPORTING DRIVEWAY) WITH A RETAINING WALL. Permit #: BLD20110852 Project Address: 1109 12TH AVE N, EDMONDS Parcel #: 00705100000200 Owner: RICHARD & BARBARA STUART Contractor: CAREY BROTHERS ROCKERIES Lender: PO BOX 236 LLC EDMONDS, WA 98020 19622 SR 9 SE B -Footings SNOHOMISH, WA 98296 _ _ _ 13 -Foundation Drainagec- LICENSE C CAREYBR936BC EXP: U7/2013 Construction hours are lam - 6pm on weekdays, loam - 6pm Saturdays. INSPECTION I INSPECTOR I DATE I COMMENTS E -Erosion Control/Mobilization E -Spreader Trench E -Engineering FinalC( _ ........ B -Footings _ _ _ 13 -Foundation Drainagec- __. 13 -Retaining Wall _ --- a -Building Final ,7 : VL i E-Asbuilt .1 �, � .. , _ 2�`7�11 i„ i _ A' A l ,�... RECEIVED MAR 16 2012 DEVELOPMENT SERVICES COUNTER `n C. 189 October 20, 2011 CITY OF EDMONDS 121 5h Avenue North, Edmonds WA 98020 Phone: 425.771.0220 • Fax: 425.771.0221 • Web: www.ci.edmonds.wa.us DEVELOPMENT SERVICES DEPARTMENT • PLANNING DIVISION Richard & Barbara Stuart PO Box 236 Edmonds, WA 98020 Subject: BLD20110852 - Retaining Wall @ 1109 12`h Avenue North Dear Mr. & Mrs. Stuart: I have reviewed the materials submitted for the retaining wall to shore up a failed rockery on your property at 1109 12`h Avenue North. Since the new retaining wall is more than 3 feet over original grade and located within the required zoning setbacks, a variance is necessary to permit the retaining wall as proposed. Enclosed is a Land Use Application form, Variance handout #P6 explaining the variance criteria and process, and handout #P2 with instructions on how to compile an adjacent property owners list. Application fees for the variance include: 1) $1,340 for the variance, 2) $15 City of Edmonds permit surcharge, and 3) $185 sign posting fee for a total of $1,540. When we spoke at the counter earlier this year, I remember you two were leery of the variance process. Generally we do not encourage people to apply for variances, but variances are available for just this.type of circumstance. In order for a variance to be granted all six of the criteria (detailed in the enclosed #P6 handout) must be met. I understand the need for the retaining wall, and the only criteria that I see needing strong documentation for the proposed retaining wall is criteria number 6, variance is the minimum necessary. The proposed retaining wall is 8 feet from the base of the rockery and 17 feet from the edge of the driveway. Documentation should be provided from the geotechnical.engineer stating this is the closest the retaining can be constructed to the rockery. I will work with you to process the variance as quick as possible assuming you want this up before the raining season arrives in full force. One more piece of information needed is the amount of fill that will be placed behind the retaining wall. If the amount of fill is 500 cubic yards or more, the requirement of State Environmental Policy Act , (SEPA) review will be triggered. I am also enclosing a SEPA environmental checklist which will need to be completed if fill is 500 cubic yards or more. The fee for SEPA review is $485. Please contact me if you have any questions, 425-771-0220, or lien(2ci.edinonds.wa.us. Sin erely, U rnen Lien ernLien C-- Associate Planner.' 'ZJ I Wail (vpr 3.22 Apr4Z 2002) Liu & Associates Inc, 10213 X"lake Place NX Kenmore wk 90028 cle:�Se Nuz:11er. 0511135 'F.ro � , eot ldejl;�illcdcl'or Name: STLMM RZSXDXXM DRIVMX RETAXNINQ WALL 5pc�� i r'lr' - O -FOOT TALL KEYSTONE BLOCK WALL - ST&TIC LOADINO RICHARD STUART r-'r-parccl by: a S LIU September 17 2011 07.48-13 PX Dar f --" I c C-\Prograw files (x86)\*rw&1132\11-057-9fthlockwall-staticloading-stuartrosidenco Goosynthotic-Rainforced. Segmental Retaining Wall HCH& Method A Se�r'�c A:Ialvsis Details. "eek C -�Gj', Wall L)esiq.,d 'tali ti c}Pad 3 Mill 31�4'ight (ft,F � Wall Wa L ,�:'i de, 4 -, ee.16 =0 9.33 0.67 9.66 'J. =I 1 9;33 R E Pj IVE E 4.3 OCT - 7 2911 DEVELOITY PMATOF EDMONDS SEMACES CTR. C CITY COPY SSR Wall (ver 3.22 Apri3 2002) W OMAN -3112pes LO 11 Front S.,.Ope "'Ie4rees) horizontal lack One (wrees) horizontal 01; 1 i f 7, v 77 1 t ..................... rfh ........... Live Logi suralmrge (psf,, 200 Dead Luad --SuLchdrge non" Page Unit - non* wniL qt:-.,iqht friction 8.0 T "- Wid, nit th (R�; I ,in) � COM ten Anqle LWIL Weigh-, Sol! Dlata: Setback (Q'i (deqneev) (Pcf) Rninforced 5-n :1 sand N/A 36.0 130.0 -,eLAilled SC«il sand N/A 34.0 125.0 Levelling Vad Soil gramel N/A 40.0 125.0 rc�i;r, d"i t t, or S sand 0.0 34.0 125.0 Unit - Se,q,'PerlLcil Unl..L J-niterfdCe Sheax, P r,%,n c -- r I I i c.,. 6 Mtfmato Strc.,ngt"I Critorf" Servic-, State""ritrs"ria min,aM-um 500.0 500.0 Friction Angle (dcgzees) 45.0 45.0 Maximum 2000.0 2000.0 Rai,- forcor�,nt 7vrej�, and 7.7umber: r Nano HDP- t**syatb*tic 2 0 PST goosynthotic 3 0 Vp wftmthatic non* wniL qt:-.,iqht 8.0 T "- Wid, nit th (R�; I ,in) � 21.5 Unit Length 11n) 13.0 Setback (Q'i 0.6 Watuht Vnfilled) (Ibm) 245.0 un,L weighL Unfilled) ;pcV 136.7 Center of G-raw"ity Or,) 10.75 Se,q,'PerlLcil Unl..L J-niterfdCe Sheax, P r,%,n c -- r I I i c.,. 6 Mtfmato Strc.,ngt"I Critorf" Servic-, State""ritrs"ria min,aM-um 500.0 500.0 Friction Angle (dcgzees) 45.0 45.0 Maximum 2000.0 2000.0 Rai,- forcor�,nt 7vrej�, and 7.7umber: r Nano HDP- t**syatb*tic 2 0 PST goosynthotic 3 0 Vp wftmthatic SRWall fver 3.22 April 2002) Prage 3 stne-marh an -4 Type T Y'D e -3 Ultimate S,-rengLh flbss,,I.CU j 3700.0 2625.0 5300.0 Poi, Imps or VP ymez Type ROM or PP poly"ter lqeduc,livn Pactont": C, C T) Jur ab i I � L v Trist,al Damago Ovuzal. FactoT of safety A" 17rrc�ngth. Ta (ibs/-fti Coef;ficicnt: of ?-j ype I 5.00 2.00 3.00 1.50 82.22 2.50 2.00 3.00 1.50 7,v� . ric, 2 116.67 Type 1 ,rYP e 0.7 0.7 7,vp r 7ypc 2 0.95 0195 connection stzeng"ll: TYP e 1 Type � ,uZtfmarc minil-num-, hs / f t 1233.3 875.0 F-ciCLio, Weqlte�-3r 22.0 22.0 max u i Its/ tl:) 1050.0 1312.5 sezvice state critericn: ', lbS / ft j 1233.3 975.0 Friction kngle :*e•gree 22.0 22A 'Maxi"w-'m c 111m ft) 1950.0 1112.5 4pe 3 5.00 2-.00 3.00 1.50 TY'Pf-' 3 117.78 0.7 Typo 3 0.95 ')Ve 3 1766.7 22.0 2650.0 1766.7 22.0 2650.0 SRWall (ver April 2002) LN Page 4 ReLKinin g "T'17 117inq 'ntertace S,�eax Axenc-fh. Type e 2 THn� .3 , U , jmace MIP imam, ::tis / f tz 500.0 $00.0 500.0 ,tion Fri c Angle 45.0 45.0 45.0 '_fax ara (Ibmlft) 2000.0 2000.0 2000.0 5.6 OUR s, tatci cr-,rc-rfon, Wlft) 0.29 N/A rvisc,i Fc<mntricity 0, *:q?'ft 500.0 500.0 500.0 .,CiC,LiOz. A:',qle 45.0 45.0 4S,O 2000.0 2000.0 2000.0 of 4:axt�, lIxessure and railurc Planc oricntatioas; Ro"'r"fc"rCed Sn'l (Ya' 0.206 Rcirforccrd Soil (Ka ht)rizontal componnn-nj 0.194 UxiennaLinn Of failure plaae from horizonLal (degrees! 57.9 Retainad Soil (Ka) 0.227 ReLained Soil (Ka lioxizofttal componeaL,, 0.197 Orientation of failure plane from horizontal (degrees) 55.43 Calculalred �-jasfqn Crltaria fus Sliding 4.03 1.5 UK yrs Averturning 6.46 1.1 OAK FOS Buaring Capwity 12.57 2.0 UK base Relnforceri*nt Length %,) '�fti 70 5.6 OUR Base Eccentricity Wlft) 0.29 N/A rvisc,i Fc<mntricity Ratio (c/L-2cj 0.05 N/A Base Ratio (L/H) 0.-75 0.6 CK Note: calculatnd values MEET ALL design criteria Resul"s of 41 $Ldbllity Julalyves: Calculated Vai"Cs. iota! iorlzor.,.al Fore (iba/ft) ,,tai Vert-,c?.,I rorce lb*/ft) 7 1 i, i i r. g R em i -; t an cc b.,3 / f t Dfivint ,j MQmeWL (IbS-fL/fL; R��sir.ting Noment (lbi-tt/t-�) Bearing Capacity (pst) Via , �xlmxm Bearing Premsure tpsf) SRWall (ver 3. 22 April 2002) Page 5 L,V 03 117.35 Q.1' lntuz.�41 stal&421,ty, An�! es: IIIRW C sj,;) ;AnAynth*rie�7 4% 1 .1 o a t Slidanq $2idinq un,� fftl Stron,7rh L4 yot r drfr Force capacl *,.v UI 1.) ""Or"grth over- ?"I"1 4, t S Z I df nq 5' C:1:rg tutilujig fj:w",k) F�Wt ift) stress ffr) >1.5 v, 7 < 0. 02 >1.5 > 1.0 > 1.0 > 1.5 > 1.5 < 3.0 14 1 8.67 8.5 1.92 1.11 2,29 30.73 OK 12 1 1,33 9.0 2.16/*�q 163.7 4.0 15,04 OAC 10 1 Co S,o 2.9 0.56 7,70 10.72 CK 8 1 4.67 7.5 3.13 0.39* 9.26 8.46 CK 6 1 3.33 7.5 3.97 0.32* 12.11 7.03 OK 4 1 2.0 7.0 4.1 0.20* 13.39 5.71 OK 2 1 0.67 7.0 4:04 0.24* 10.17 4.79 OK I do, -.,R NOT fomFT de5,".gn C.Z.it_cl ,%'LJ � _b:d Rvzu!L�; cl lilLi��rna.' Stqb�,Jtjr �n y .... ... . .. ....... '. t� k1k - lw Y, o 1",4 b �, e, ;AnAynth*rie�7 4% 1 .1 o a t Slidanq $2idinq un,� fftl Stron,7rh 1,47'ad cipocl, ry Force capacl *,.v Sh*A r (Ib SI" I t ) fL L) tutilujig fj:w",k) F�Wt �,nea*) >1.5 v, 7 < 0. 02 >1.5 <0.75 iz 14 14 1 l 8.67 *274.1 21.09 16915 31,17 974.9 12 1 7.33 82.2 11010 $70.9 1284 1924.7 10 1 6.0 92.2 163.7 1276.1 268.0 2874.4 a 1 4.47 82.2 208;6 1912«1 451.0 3824.2 6 1 3.33 02.2 253.4 3068,5 619.4 4714.0 4 1 2.0 02.2 200.2 1979.5 95017 5427,1 0167 2343 0 5!546»0 1265.8 6050,2 (: ">.P.kc, 1pwa;i.I«u 0: Facizw A;.alvays ,q,qjv 11 ;AnAynth*rie�7 1f al�f M15 Shos r FCS "Ini -1Ele" Type Over- Sh*A r Vonnocrian fL L) tutilujig fj:w",k) �,nea*) >1.5 >1-5 < 0. 02 >1.5 <0.75 iz 14 0.67 1 14.$3 21.09 OK 17.53 OR 13 $.o **no c6 - - - 12 7.33 1 5.15 28.34 OK 12.03 ox 11 6.67 WN36 3.92 - 10 6.0 1 3.06 17.26 OK 9.55 OK 9 5.33 00" 2.50 - - a 4.67 1 2.16 16.65 OK 8.13 oft 7 4.0 no" 1.91 - - 6 3.33 1 1169 14,27 OK 1.21 OK 5 2.67 none 1.52 - 4 2.0 1 1.37* 13.94 Olt 6.2 OK 3 1.33 M4* 1.26* - - 2 0167 1 1.16* 12.06 OK 5-30 ox 1 0.0 non* 1.07* - - valiie dcpk NOT Mk -'ET d*Fign nvitorinr, 44 SRWall (vor 3. 22 April 2002) ,'e,-,4 ' I ed W,"t2 1 *-P of i"OC-2h I st a b 12 Page 6 ,; P. , v 4e��? ��o Dr 7 veShev C*,n37lcct4Q:l r AAmr Shpa r Lift 7. t h 7.1,v T.VF- Xcmpr, r W)MOult 1, 0 Ad rhAP9,71 tY S75FR?-ItY "ak) f ft) fibs ft/ft) f !he - ft/ft, fibs ft) f lbs/ ft) Ulbvilft) 14 8-67 1 74.1 1209.3 +out -1n (pank) (do FD z m 4 t v.-,) 14 0.67 1 9,9 146.3 31.5 "3.3 463.3 13 Co noce 44.4 355.6 0.0 826.7 026.7 12 7.33 1 111.2 573.1 53.9 990.0 990.0 11 S. 67 tkco* 217.6 853. 5 010 11W3 1153.3 10 610 1 371,1 11*2.2 76.3 1.116.7 1316,.? 9 5.13 A*" SIMI 1493.1 0.0 1490.0 1400.0 a 4.67 1 849,3 1053.5 99.7 1613.3 1643,3 7 Co ncwko 1109.9 2276.3 0.0 1806.7 1006.7 6 3.33 1 1605.6 2707.2 12111 1970.0 191010 5 2.67 Do" 2106.7 3201.1 0.0 2000.0 2000,0 4 2.0 1 2609.7 3703.1 143.5 2000.0 2000-0 3 1.33 3392.2 4268.2 0.0 2000.0 2000-0 2 0167 1 4191,6 4941.4 1". 9 2000.0 20O0. 0 1 0.0 rA)M 5105.1 5477.4 0.0 200010 2000.0 SPW Heel C*,n37lcct4Q:l Cwmccc i on Uni t Ellev cipool ty capa c 1 t V f f tj Ubz/z W "ak) fdvfo=u t vagi 14 8-67 1 74.1 1209.3 2290.3 12 7.33 1 119.9 1433.,3 1431.3 10 6.0 1 163,7 1543.3 1563.3 0 4.67 1 20e.6 1645. .3 1695.3 6 3.33 1 153.4 1027.3 1927.3 4 2.41 1 240.2 1850.0 1850.0 2 0.67 1 343.0 1050.0 165010 Project Identification: Project Name: STUART RASIDRNGA DRIiAY RZTAMMO 1L Section: 9-pOOT TALL XZyST01M BLOC TALL ' - STATIC IOADIM Data Sheet: Owner: RIDBADD STUART lient: Prepared by: J S 1,11U Date: Septembor 17 2011 Time 07:48:13 Pfd. Data file c:\Pram fil*2 (x86)\s rw&1132\11- 05T -9f lock ra l,l -tt&t aloodinq-at art RW41 Ovi-r 3.22 April 2002) Page .1 Licensed °I v: Liu i Associates Inc. 1.9213 Kwaloko Place NX Kersmore Ti1R 98426 Y cmter; VumN r- 4511135 Prey= Tdantifica Lion : PzQ ._ :;t_ Nwi : $Tim JkXSIVXXCZ DR3VSWU R1C'. tXIWG WAIJ, Sect! on: 9-10VT TALL XRYSTONZ BLOCK WALL - StIftac 11OADIM Data Sh"; t: RZCOMW STUAW Le: September 17 2011 lime ; 47:51:01 IN 04A ? e b c:\prcq:r tilos (xS6) �,arwai132i11-ti5�'-9��b3.o�sk1.�.-aa+q�3:cla�►dir-stresidi�nc s " of . r ru c7 t a rq : Geosyathetic-Rei nforc d Segmental Rets.i i rxq gall Se�x�rasysaxass Ces:i as wall He-: qht; `ft) 9.33 Frbedm,,�r.t Wall 11cight 0.67 Lxposed ::es i , Wall isle; gnt (f t.) 8.66 Nurbes of segmea Lal Wall uaiit s 114 1i r g,i, '?e qht ; gt) 9.33 SRWall Nez' 3.22 April 2002) Page 2 LIN, 051 i i A *71 ... . ...... . ..... .... .. . .. .... i,40nt Slopehorwatal Back Signe idegrees) b0z I xOntal Live T,oad Surchirgr,,,WOW Ccad L,, -,ad Sur.:Ihatqe A mmmi a S7ail Oata; Sol.� Description: Rein±orced Soil sand ReLal:led 3.w sand Leveilirg Pad Soil qrmv,41 saud Segmenta" Vrr�it Name: _j?vQ 1hunq ser,mcnittal V",!L Data: cap Height (in, noyao UniL fieiqht -'Rj 8.0 Vit wido W (01) 21.5 77 ,,nit Length -.',in) 18.0 sutback On) 34.0 0.6 Weight ( A- i 1 Ind) ( lbs) 243.0 TUL WeighL UnEWOM &W 136.7 Centc.,r oto Gravity (in) 10.75 seamental Uhlt lnterface shear Data: propertIO5 Ultimatc Strorqth Critcria Srrvix ;i :citta CriLeri,; Mlnim= ,ibs/tt,, 500.0 500.0 .`rind. or. Argie (6egrens) 45.0 4S.0 2000.0 2000.0 MT h,% Namm, 7 HDVI go*sy-Athotle 2 0 PST "**yath*Uc 0 PF 9"Synthot3 c NOWLInn Cohesion Anqlv LWO Weight ('09t) edeqrcc,�r) (Pcf) X/A 36.0 130.0 N /A 34.0 125.0 N/A 40.0 12510 0.0 34.0 125.0 propertIO5 Ultimatc Strorqth Critcria Srrvix ;i :citta CriLeri,; Mlnim= ,ibs/tt,, 500.0 500.0 .`rind. or. Argie (6egrens) 45.0 4S.0 2000.0 2000.0 MT h,% Namm, 7 HDVI go*sy-Athotle 2 0 PST "**yath*Uc 0 PF 9"Synthot3 c SRWall (ver 3.22 April 2002) Page 3 L14 031, 1 L35 Stree att and PG' 1yme, 7�pe: Type 41 Type 2 -ype 3 Stronqt.h 3700.0 2625.0 5300.0 Fo,lymtar T: j:r HDpX or pp pol"Ster HDpZ Or pp ,Rejuc�lozj i"acLoxs: -type I lype 2 vp,- 3 Creep Wil. J tor seismi,c �naly5is) 1.00 1.00 1.00 2.00 2.00 2.00 InsLalaUCM 1".,amaqe 3.00 3.00 3.00 0,�e4all Factol of` Safety 1.50 1.50 1.50 411.11 2S?1.69 58.89 Typ e I Type 2, awe? 3 0.7 0,7 0-7 E! � I ___ -, - -I- -, c"", Di,oct� Type I Type 2 Type J 0.95 0.95 0.95 Typj� I 'Typq 2 7,yp? 3 Minim-, !abs/ft) 1233.3 $73.0 1766.7 AnglLe ;de greo!70 22.0 22.0 22.0 max -"Mum 1850.0 1312.5 2650.0 Serv_-ce St.ate Criterion: Mlinialum �Ibs/ft) 1233.3 975.0 17166.7 Frjl7-,,Jion Ang.�e tdcgrccsl 22.0 22.0 22.0 Max",mum "Ibs/ft) 1050.0 . .......... 1312.3 ....... .... . .. . .... 2650.0 SRWall (Ver 3.22 Aprill 20021 LN Seq.memLdl lk.,ta�rimq P14 i Unit I�enlez,I'ace sh!?&r Tme :fype 2 'Typ �! 3 CoettIclents of Farth Pressure and FaJiure PlIxie, Orientaclons: $eismic Coe^ltic-ent (olnt)) 0.25 c inml C. i..C3C f f i C w Ft ( k (ext 0.1 M J.r Imum !, ilbs/-ft) 500.0 300.0 SOO.0 Frictic;n Angle i,dec),rees) 45.0 45.0 4S.0 OriontaNion of fmi lure plani tTOMhO-i'70-ta.j, ieqreeC,) 2000. 0 2000.0 2000.0 Retained Soii ;, s r a t,,, (Rah horizontal component.) 0.197 Retained Soii (Stat -5c dy'namic', tKae", O 292 W ntmlm t! 50010 $00.0 500.0 Vri-Q,t-iun Ai,,g77c- deqtees 45.0 45.0 4s.0 Max -'m= I, I, b F, 11 f 2000.0, 2000.0 2000.0 CoettIclents of Farth Pressure and FaJiure PlIxie, Orientaclons: $eismic Coe^ltic-ent (olnt)) 0.25 c inml C. i..C3C f f i C w Ft ( k (ext 0.1 Riu-inforced Soii 1 static) (Kai 0.206 Soil. 1-stati-c) M% htiri,7ontal component", 0.194 (.Kae) 0.30 Re . infoxced static ayaa.,rLc!Kaeh horizoiLal Component 0.357 OriontaNion of fmi lure plani tTOMhO-i'70-ta.j, ieqreeC,) 57.9 AeLa�Lned Soil (sLat.�,mo) (Ka) 0.227 Retained Soii ;, s r a t,,, (Rah horizontal component.) 0.197 Retained Soii (Stat -5c dy'namic', tKae", O 292 qCtAiTICId Soil (stati�: dynamic.) -OKanh hari component', 0.2S4 UrientdLi011 of failure plani� ftom he riLal ,'degxreesl 50 .29 Page FOS Sliding 3.22 1.1 Ox rC,s rg 4.73 1.15 OR 70S, 74rarirq 7apac-tty 12.52 1.5 OK Ba4;5e, 1,el2;L11 (L) (ft.) 7.0 516 Ox Base Eccentxicity �Ye' ttt) 0. N/ A T;ar,p 7,ccertric:tlry Ratio 0.049 8 N/A Base Rat.lu 0.75 0.6 OK Note: caioulated values MEET ALL aesiqr4 Detdlled ReSUZtS T^taj Horizontal rorre Tc,,l , - , al. VCT -tical rorc-x� ng RC N i S, t -1 T' g M GM r, Bedring Max Imun Beari*17 Pressare, Cpsf) 1905.0 8606.1 $004.9 6900.4 326+18.8 17909.7 1430.1 SRWall (ver 3.22 April 2002) Page 4�1 Results zf lnt*rnal �$#,-Isrjcj 'SAN CWmyr R�, ev L*nqt*h mqctor Fos ro-q ECIS 14YOT rs, I � t Typt. fft) ft? �,elgtih Mer- P4-, � au t SlIdingr -�Pdrinq # t ft) StresIt fft; > 1,0 > 1,0 > 1.1 > IA < 3.0 14 1 0,67 6.5 1.92 1.35 O.SGS 13.23 m 12 1 7.33 CO 2.16 1,24 1.75 0.67 CK 10 1 6.0 $10 2.9 IAS 3-66 6.45 M 8 1 4.67 7.5 3.13 1.11 3.21 S.&I OK 6 1 3,33 7.5 3.07 1, 95 7,61 S.1 OR 4 1 2.0 74 4.1 302.8 3040.5 9.59 4.33 OK 2 1 0.67 7,0 4,84 2 1 0.67 414:1, 12.60, 3.76 Ox Ncfte: I value doe., NOT -MEZI design criterit.,n !3 OK 4.49 CK Note. Seismic aaully°iiz may nc�t give the lowest factors of �iafoty for iOS against ze`-nforcement 4,67 1 :tabilty CalCule.Liona. Br, "zo tO chcCk (�urzcnL dvZio.v u-11.vi 51.at�c Ar'a"Vsil clptJon. 7 4.0 rlank* 1." "9 OK r�Ari?f le-' ReW'%9 e -'f Int*rP&I Stablifty Arales. YX SRW 6eosyr' SILv A.Il3w4b.' TWIZ1.1c PuIlout SjUdl i i 9 5, i Nang Ing Mu.L t Vie fl L Strongth Uid capclty Force 4-3pat'ity Zhoa r fdoformatlur,,' C v -,U,4 v C L 1 U. Obelftt tIbslft# r lbs/ft) ti�X.Iir�v (Pvjx I fpc,* A 14 1 8.67 411.1 304.2 169.5 64.0 974,0 12 1 7.33 411.1 326.3 570.9 222.0 1924.7 10 1 6.0 411.1 348.3 1276.1 419.9 2074.4 Mm I 4.67 4411.1 370.6 1932,3 657.7 3024,2 12 1 3.33 41111 302.8 3040.5 93S.6 4774.0 4 1 2.0 411.1 414.9 3979.5 1253.4 5427.1 2 1 0.67 414:1, 437.1 5946.9 1611.1 6050.2 SFW Rc r., I s y v C h I Z, f, � r0f, Iran shtj r 0.11 t XIAV 7 1r* Ovor Zhoa r fdoformatlur,,' C v -,U,4 v C L 1 U. ti�X.Iir�v (Pvjx I fpc,* A > 1.1 > IA <:{x''..:02 x xv > 1.1 < 0.75 in 14 0,67 1 2, " 4.44 OK 4.27 Ox 13 8.0 Mm 2.07 >99 opt - - 12 7.33 1 2.22 6,17 09 C39 09 11 Col a=* 2:11 >S* OR 10 6.0 1 1.89 7.67 OK 4.49 CK 9 5.33 none 2.03 >99 OK - a 4,67 1 1,72 8.99 OR 4.57 OK 7 4.0 rlank* 1." "9 OK 6 3.33 1 1.61 10.16 OR 4.65 Ox 5 2.67 no" 1.5`8 >" OK - 4 2.0 1 1.53 9.75 OK 4.46 OK 3 1.33 n*44 1.5 >" cat - 2 0.67 1 1.49 9-25 OR 4123 OK 1 0.0 nor* 1.44 >" OK AEA dP.SA,.(T", criterla .... .. ....... SRWall (ver 3.22 April 2002) Page 6 zm 0111h D,ra f led Apsul ts- lol FJCjAa Std bf I AnalysFIMOIV�.qt and, SRW Feel cec ar 14 ve PC �).L " L zi,�ear shoax ve"eir ur, �,r El a v rypr, Movent Mment : f,*,R(Y Cap4C.Ltw �'ApA e,* i ry # (It's - f t /I L i Obs-fr/ft) fabs'lit) (lbalfr) Obv/ft� 14 0.67 1 304.2 1299.3 +y�-Yjt -it (pe a k) f delvrma Z� I 14 8.67 1 40.5 146.3 145.4 1663-3 663.3 13 8.0 nam 2040.4 574.9 370 6 824.7 828.7 12 7.33 1 456A 101116 160.5 990.0 99010 11 6.67 ISWO 821.2 1736.6 0.2 13,53.3 1153.3 10 810 1 1209.5 2457.7 171,7 1316.7 131.6.7 9 S.33 A000 1892,0 3467A 0.2 1400.0 1490,0 s 4:67 1 2605.4 4484.5 102.8 1643.3 184313 7 4.0 nom 3442.4 5704.4 013 1906.7 160617 6 3,33 1 4406.6 7002.4 194.0 100.0 1970.0 5 2.67 asorsa 5501.0 $682.5 2000.0 2000.0 a 2.0 1 4731.6 10280.0 205-1 2000.0 2000.0 3 1.33 Mao 8099.8 12161.3 0.3 2000.0 2000,0 2 0.97 1 9610.0 14060.3 216,3 2000.0 2000:0 1 0.0 u0no 11265.9 16221.3 0.5 2000.0 2000.0 7�eralled Re,*Wr,s f kas at t 5 Oity saw- He*l Gen C,,,wqn,-t-ti On connection CIXrMe<7rICn un., r slav Tlype 4,7,3d VAPArIty y t) f4ballt) rpeak? (1"'Ift I 14 0.67 1 304.2 1299.3 1299.3 12 7,33 11 326.3 1431.3 1431.3 10 6.0 1 340.5 1563.3 1503.3 4167 1 . 370 6 1695.3 1695.3 3.33 1 392.8 1827.3 1827.3 2.0 1 414.9 ISWO I3,!50.0 2 0.57 1 437.1 I850.0 5,RWall NL��or 3.22 April -2002) Page 7 iW Z -_71 9.33 4.3 degrees Type I prolect Ident!fJ;C&tivII: Project Name: STUART RZSIDXNCZ DRrVMY RIMAINM WX Section: 9-700T TALL RRYSTONZ ZWM VAM - SNIMac LOADMG Data Sheet: Owner: RICHAM STUART CIH,ent: , Prepared by:J 8 LIU Date: September 17 2011 Time: 07:51:01 PM Data tile; c:\Fr*qrm files (x$6)\orw*1132\11-OS7-9ftbl*eAwall-soisaicloading-stuar SRWall Nez, 3.22 Aprii 2002) LINT 03i1,!3� t�,L,Ce!:sed La: Liu & Associates Inc. 10213 Realake, Place NX Xemore %a 98028 n: R:. N?umbuz: 0511135 Page 1 ry j tact Mi. SXUART ItXSIDMM DRIVXW" VXTAWIM 10" S s vz i 11-rWT TAM X3,YSTOM su= wu - STATrC LOMMG nat,a Sheet, RICOARID STWW prepaz:ed by: 1 8 LXU Date: September 17 2011 TiTIA: 07:43:54 FM fa LZ f.Lle.- c:Nprogram file* C%86) �szv&1132\11-057-Ilfthlockwall-staticlooding-stuartrosidanc -'fiTe of stzucture: Geosynthowtic-Raainforcod Segmental Ptatoining wall tl��thodo,l rgy.,, YCH& method A ?ea,�C Wa-11 GeuMeLC�. wall eight .(tt't E:,&ed=e,IiL Wall height (Ift" Exp --)Sed DeSIgn WaII Height (ft� Mi,`-Im�3m Pad Th-�ck:,,cinn �Ift) N417ber nt sf�gm-nntal Wall Units Hi:<qe ieighL tfL) Wei l.1 fUeqrees) r1im 11.33 0. 61 10.66 0..-, 17 11-33 4.3 SRWall (vee 3.22 APril 2002) Pagf- 2 LN ','51.2135 71 horizontal icrack Slope horizontal Mql, form, TE' 7c T,c,,ad, (pif 200 Dead Load none Seqmencaj un -1, t- in_-; t� I PJ qf"t none 4 t7� 'Ij 21.5 Un L Lefiguh ;.Ln; ,h C �e,;,fcn "c Ar T U:iiL Weight S,c,il Data: Soii De�scriptlon: (Pref (degrees) (,OCZ') Reinfoxced S""i'll sand N/A 36.0 130.0 Retained sci', sand N/A 34.0 125.0 neve! Pal SQil qrmv*j X1 40.0 125.0 sand 0.0 34.0 125.0 Seqmencaj un -1, t- in_-; t� I PJ qf"t none 4 t7� 'Ij 21.5 Un L Lefiguh ;.Ln; 18.0 SeLb,ack 11n) 0.6 we ht- i n /r v C, hS 245.0 L WF_-iqhL (Ir.rii edl' f 1 136.7 Certe of Cravity , 1, 3 10.75 P rqr, c r r: 1 c,5 Ultimate St,-eIlqLh Criteria serv:ce S'ate crltex!4 Mir—num (jtr,/ftk 500.0 500.0 45,0 45.0 2000.0 2000.0 Xe,'P,�, orcemen t ..... . .......... ... Numb'e-, Navle ypL 1 $ HDPZ q*o*yOtb*tic 2 0 PST goosynthotic 3 0 PP vaosynthetle SRWaII (ver 3.22 April 2002) Page 3 45�/-71 and R>.,yn-or Type -1: T�r-e I Type- 2 Type 3 C-trergth fJbS/tt) 3700.0 2625.0 5300.0 RDPI or VP poly*ttor mn or PP Typo �2 7�,T, C cn-'Pr, 5.00 2.50 5.00 1766.7 2.00 2.00 2.00 22.0 3.00 3.00 3.00 Gvcral1 r -actor of Smicty 1.50 1.50 1.50 AIIOW-albje $tr4,Iqrh: 1, 2"fTe Type 3 M i n 1. r -")m 92.22 116.67 117.78 ul�Ixate, Srranqt�! Cr! "crior, (Ibc,/ttr 1233.3 076,0 1766.7 0.7 0.7 0.7 22.0 22.0 �s e 2 T)Te 3 C , d5i 0.93 0.95 0.95 connp-ctl'on stronath: Type I Typ 4 a 2 Tyr,,�, 3 ul�Ixate, Srranqt�! Cr! "crior, (Ibc,/ttr 1233.3 076,0 1766.7 A•gle (-deqrees! 22.0 22.0 22.0 I b s X, f, r- ) 1850.0 1312.5 2650.0 Service Sl-atc Criterion: M i n 1. r -")m 1 Lr, 11 trl 1233.3 075.0 1766.7 rrictior. Angle (deqee3l, 22.0 22.0 22.0 .maxim-=, ibsia"- 1850.0 1312.5 2654.0 SRWall (vez- 3.2-2 April 2002) gage 4 Geosynu'let.ic som'Inntal, Re1Q, Kai Ubit "Irtexface Sheal S,,�rmqth.,, 1-YP - i ryp C, 3 U,�t.LaaLe Axe-Igth, 0.206 RVinfOrCOd SM" iKa h0r770nta! Mir-mllm (Ibs/ft: 500.0 SWO 500.0 F'r * v:iom Angie flaegreel) 4S.0 45,0 45.0 Mmxirnun ;Ka bor,,,z,-mta1 2000.0 2000.0 2000.0 tie. V � C& SLaLt- 55.43 N/A 'R;."j5e Minimum 4Ibs/ft) 500.0 S00.0 500.0 Friction A.a.qle fdeqrcts) 45.0 45.0 45.0 a X1 m3 7r, t t b5/ tt) 2000.0 2000.0 . ......... 2000.0 Jogff Welt; of Ej;PP,P essure and Failurc', P�I,zne Crier, ta t1qns: Reintorc6d Soil (XA) SliaT,ng 0.206 RVinfOrCOd SM" iKa h0r770nta! c=palle-L) 0.194 OZAOLat!,411s of failure plane tror, horizontal (deqxees) 57.9 RetaLned 30ii (Ka) Rei 0.127 Retained ;Ka bor,,,z,-mta1 ce,%rpcn--at; 0.197 Orientation of failuro plane tram hoxizonLai (degrees) 55.43 Results of External SrabilltV Analvsei�: Cal CU !a t ed Czitcrla 70's SliaT,ng 3.72 1.5 OK FOS OverLwUag 5.42 1.7 OK FOS Fearing Capacity 10.72 2.0 OK 1 P,a5�i Rei 7,5 6.8 OK Base Eccnntri�-it.y ao)lf,,I 0.39 N/A 3aSe I CCenLriQiLy lRaLiu ,L,/L-2o', 0.06 N/A 'R;."j5e Reintorcemen*t Ratio (L/i? 0.66 0.6 OK NOLe: CalCulaLed valueMEET ALL do -coign critcria T,)atf,7a! Calculated valucs.. (1hr./tt) 2027,2 (lbs/ft) 111960 Sliding 1�esisLaace (lbsILL) 7545.7 Driving Moment Ubs-t-,/tt) 0501.4 Resisting Movient (lbs-ft/ft) 46065.4 Bearinj C4pacity (psf) 19701A M 1 aximim nearing Prnnsury �pst,, 18370 S,RWA1Z (ver 3.22' April 200 2) dcet� NOT 4SE'r de'lign. C-rltericn -Results c.,f nitenmal Stab4t Ar,)� VAT 7 T�7- (fr Stlengtft 16 1 # 10.0 62.2 128.0 14 1 8.61 92.2 141.3 12 1 7.33 92.2 10612 10 1 6.0 92.2 231.0 4.67 02.2 275.9 3.31 82.2 4 1 2.0 42.2 .4 2 1 0.61 !!,-, 3 10.2 A Slyses: SRS POF, Fos Unit RZev ryp� 0`7 Sht,& r > 1.5 ), i's F",=e capartty (.1baltO � I hs / ft j 47514 74.4 I309.6 1206.8 19216 2519.2 1670.9 354.5 4-7/71 2749.0 560.1 4530.4 3201.2 6x09A .5414.6 4620.3 11102:0 6097.6 501.0 I439.7 E.1 cm, e n q r /Yrchz,?- I, GIS r -11's Fos ayax 2,71 12 "'ergrh Over- Pullc,:iL slid!nq ""PA e7l r, g 11 6.67 ncsaa 1199 tft) sLivas 10 610 (ft) 1.73 16.44 09 9 > 1.0 > 1.0 > 1.5 > 1.3 < 3.0 16 1 10.0 310,010."* 15.12 OK 3.71 20.29 OR 14 1 8.67 10.0 3:, .2 0.58* O.54 13.08 OR 12 1 7.33 -9.0 3.16 0.44* 9.90 9.96 OK 10 1 6.0 0.0 3.9 0.30 11.99 0.1 OK 7 1 4.67 0,0 3.63 0.3* 11.61 6.69 m 6 1 3<33 9.0 4.37 0.26* 14,41 3.53 OR 1 2.0 7's 4.6.0.23* 25. 4.71 OK 1 0.67 7.5 5.34 02"18.36 4.1 OK dcet� NOT 4SE'r de'lign. C-rltericn -Results c.,f nitenmal Stab4t Ar,)� VAT 7 T�7- (fr Stlengtft 16 1 # 10.0 62.2 128.0 14 1 8.61 92.2 141.3 12 1 7.33 92.2 10612 10 1 6.0 92.2 231.0 4.67 02.2 275.9 3.31 82.2 4 1 2.0 42.2 .4 2 1 0.61 !!,-, 3 10.2 A Slyses: SRS POF, Fos Unit RZev ryp� 0`7 Sht,& r > 1.5 ), i's F",=e capartty (.1baltO � I hs / ft j 47514 74.4 I309.6 1206.8 19216 2519.2 1670.9 354.5 3520.8 2749.0 560.1 4530.4 3201.2 6x09A .5414.6 4620.3 11102:0 6097.6 501.0 I439.7 6190.5 7532.1 1020.4 7463.4 54ce'r (d*.Io=a tt un) < 0. 02 x Vu 17 10,67 AOAO 14.83 21.09 OK 16 10.0 1 6.77 IIAS OK Is 9.33 no"O 4.66 - 14 8.67 1 3.42 27.73 OK 13 9.0 ncne 2,71 12 7.33 1 2.3 16192 OK 11 6.67 ncsaa 1199 - - 10 610 1 1.73 16.44 09 9 5.33 none i's$ - - 8 4,61 1 1.39* 15.12 OK 7 4.0 nom 1.27* - 6 3.33 1 1110 12.93 OR 5 2,$7 40" 1.08* A 2.0 1 110* 11.251 OIK 3 1.33 no" 0.93* - 7 0.67 1 0.87 * 10.02 OK 1 0.0 none 0.83* - Note. I value doF-,a NOT. MM deUlgli uziLCZ4Xn Page Fos cc p, e C, 0 n e f,-, - j a. a t "a k) > I'S < 0.75 ixi 10.67 OK 10,59 oft 1,63 09 8.71 OK 5.77 OK 5.06 OK 4.51 OK SRWall (ver 3. 22 April 2002) Parl"Its Of Stability Anallyqcj IJVl>,xOgt ind shvmr,): Page 6 SAW he d. j i;00 DZIve PC e, 1 S r Shear 9b e a x s4c4z Type Elev TIYA- M 7 M=env,,o4d ft Ca pa c 1 1, y Cipa c 1 r y (peak,, (ibs-IULO �Ibs-fr/fr) 1"bolf3.'; 7IbS/ ft� fibsIftl 16 10.0 1 IMO 1345.3 .Out -an fpcjk) ?dpfnmAt!v.,:; 17 10.67 none 9.t 144613 31,5 6x3.3 663.3 16 10.0 1 44.4 300.9 74.1 $26.7 026.7 is 9.33 1 111.2 SICS 010 940.0 990.0 14 8.67 1 217.6 743.9 65.1 1153.3 1153.3 13 8.0 A*" 371.1 1032.5 0.0 1316.7 1316.7 12 7.33 1 $79.1 1329.3 67.s 1400.0 1480.0 11 6.67 60" 849.3 I76es.1 CO 1643.3 1643,3 10 610 1 1168.9 2057.0 109.9 16OC7 1906.7 9 5.33 nOtsrt 27605.6 2467.9 0.0 1910.0 ISMO 8 4.47 1 2106.7 2927.0 132.3 2000.0 2000.0 7 4.0 Rofto 2699;7 3429.1 6.0 2000.0 2000.0 6 3.33 1 3392.2 3939.3 154.7 2000.0 2000.0 2.67 non* 4191.5 4512.5 0.0 2000.0 2000.0 2.0 1 5105.1 503.9 17*7.1 2000.0 2000.0 3 1.33 00" $140.5 973C2 0.0 2000.0 2000,0 2 0.67 1 7305.2 6390,7 19 S 2000.0 2000.0 1 0.0 tumlo 3606-7 7106,2 0.0 2000.0 2000.0 ,�nnec tab,141,tv -�Lu�',-Vsep (0", !Mw Rcivi i;00 ccmlectl4an Conncct j an co=wictlW) gjll-; t F" i, ev Type Load caparitv ft (peak,, 7IbS/ ft� f!bzs1l 0 16 10.0 1 IMO 1345.3 136511 IA 8.67 1 141.3 1497.3 1407.3 12 7.33 1 196.2 1624.3 1629.3 10 CO 1 231.0 1761.3 1761.3 8 4.67 1 215.* I859.0 iewo 6 3.33 1 320.6 1050.0 1850.0 A 2.0 1 345.4 185010 1650.0 2 0.67 1 410.2 145010 18511.0 SRhla (ver 3 . April 2 0 ) 11.33 it I. Page 7 Type 7. rec:t m,e : STUART RZSI1%ffiffCZ DSXVZWAY RZTAINING MALL Section: 11 -FOOT TALI. IMYSTOUR BLOCK WALL - STATIC SING Data Sheet: Owner: R:ICH STUART "dent: Prepared by:J S LIU aL : Septaaber 17 2011 Time: 07:43:54 Pit Data file: c: \pavogrsar filsa (x56) \*ar+ *1132\11- OS7-llfthl waall-statieloadi. g -stow APPENDIX A STABILITY ANALYSES PRECAST CONCRETE BLOCK WALL STUART RESIDENC 1 109 — 12TH ANTENUE NORTH EDMONDS, WASHINGTON LIU & ASSOCIATES, INC. RECEVVE'll- 3 OCT -'7 2011 DEVELOPMENT SERVICES CTR. CITY OF EDMONDS CITY COPY SRWall (vor 3.22 April 2002) I 21Y C�ZI;:?3 "o: Liu & Associates Inc. 19213 Kenl&ke Place Xg Kenmore ma 99029 License Number: 0511135 Pr.,r'ect Name: STUAM RRSZDXN= DRZVZMX RSTAINING NALL sc,-:t�nr- 5-FWT TAM KUST= W= W" - STATZC LOADING Ou'r, C-.— RICHAM STUNW d ty: J S LIU Datp. September is 2011 'r -,, Trip, - 02:01:58 F" c:\progran fil" (x$6) \srw&1132\11-057-Sf thlockwall-Statiolooding-stuartresidance Goosynthotic-ReinfoZoed Segmental Ret"ning Wall NOW, Method A 2eax 0.00 ""nigra 6.0 w"111 HeiL^ ht ttt) 0.67 rcp[)sed lleighft) 5.33 ym { r—'inuai Leve i n g Pad' -'h -1 �Xn4- 5 S 0. b 9 6.0 SRWall (ve,.r 3.22 Apri2 2002) k,r=l, Slope (degree.%' boxiXontal mac k Slove ildiqrees) bovixontal un 'tofm-1 y Surclharuc 1pmfl 200 Dead L,:�iid Sui cnar;e none Page 2 Z/l I 5 1 C., -fll,Lal Unit Namp.. Soyzental 07J,, Data, non* UIUL heigh't �11112) (ilO, 8.0 'it wi ath OIJ .1ungle ua-ic welqj"t nn 301ii - . .. . ..... . .. 19.0 (per). (deqrees) fpC t.) Roir�forcad I I Cd). (IbS) N/A 36.0 130.0 :fie Ld-':ed Soil *and N/A 34.0 125.0 Leveii.Inq pad soy i gravel N/A 40.0 125.0 Foundationofl sand 0-0 34.0 123.0 5 1 C., -fll,Lal Unit Namp.. Soyzental 07J,, Data, Siz ipqmontal Unit Tntarface he&4 Data: L,I.rqo4e.r t i ozr Ultimate 5,aZe3iqul CrIftorl'a Se1:-vlg�4-0 st�tc �rftez-�a lo, i 1, im=I Lb Sf fr. 500.0 500.0 ic-,tor, Angle (eq ees) 45.0 45.0 maxim;m tIbs/ftnoo. o 2000.0 yZ, Lhe L 1 c Rei n f o r�7cm on v T�ypes, alolg llll=be�: umbes Na"pre 4 RDPIL 9*00YAostic 0 P ST "osynthotic j 0 non* UIUL heigh't �11112) (ilO, 8.0 'it wi ath 'Uro t Lrmgth tin) 19.0 (in) 0.6 fil'It' I I Cd). (IbS) 245.0 Uniz W�Ight � intilJ ed) %Ipcfll 136.7 CvnLex :�f 'Gravity 10.75 Siz ipqmontal Unit Tntarface he&4 Data: L,I.rqo4e.r t i ozr Ultimate 5,aZe3iqul CrIftorl'a Se1:-vlg�4-0 st�tc �rftez-�a lo, i 1, im=I Lb Sf fr. 500.0 500.0 ic-,tor, Angle (eq ees) 45.0 45.0 maxim;m tIbs/ftnoo. o 2000.0 yZ, Lhe L 1 c Rei n f o r�7cm on v T�ypes, alolg llll=be�: umbes Na"pre 4 RDPIL 9*00YAostic 0 P ST "osynthotic j 0 SR a] I (ver 3.22 April 2002) Page 3 4;:J Type I 7ype 2 .Type -i M time U.. --ate Strength iibe/tvi 37000 2625.0 5300.0 poly-"er Type RDVI or VP mm Or Reduct."in Factors: T)" I 1233.3 7� e, 31 1766.7 5100 2.50 5.00 Duzabi-'- Ly 2.00 2.00 2.00 n s r a 11 at i on 0 a "na gn 3.00 3.00 3.00 OveralI Factor Cf Safety I : so 1.50 1.50 M; r; MUM AII.,�;lwable Sr�renqt?,f: TYPO 7 7yr, c 2 T�ve 3 Ft-Ict."on 42,22 116.67 117.18 Coettf'cle'nt of lnterscticn�' Type I 7yp r, Type 3 1312.5 26S0.0 0.7 7 Coet�f4CJOnt ��f L%�XeCt Sjjdj!�q; Typ a I me 7ypt., 3 W2 0.95 0.95 0.95 . .. . .......... C' wj: I e c L I On strqn�th: Type I Typor Type 3 Ul'"fmatc stre'nqth crfrerl'on: 1233.3 875.0 1766.7 rricticn Anne (cipgrPes) 22.0, 22.0 22.10 1650.0 1312.5 2650.0 service State Crjtcrio:.�: M; r; MUM flbs /ft'l 1233.3 975.0 1766.7 Ft-Ict."on Argic (deqzees) 22.0 22.O Maxim, ufti :Ib3/'t 1".6 1312.5 26S0.0 SRWall (ver 3.22 Apr -11 2002 ens F 4.Se,4xerual Aetdllj.,�q W,1731 upft im S L Ah t " rriction Anqlc �dnqrmj) ax-mwm bslf� survire Statv Cri"tarlem.- Min'-r-mm Frllcl.iorl Angle "'degrees) Mlav"'Trum !Ilbc,01r) 500.0 45.0 2000.0 $00.0 Wo 2000.0 Page 4 +/71 rype 2 Type 3 $00.0 $00.0 4S.0 45.0 2000.0 2000.0 too. o 500.0 45.0 0.0 2000.0 2000.0 �"vefflcl&-,Ls of eaxLh llressuxe and k,4.LluXe P14.3e Soil (Ka) SOil t�Ori70ntal 170MM-,IentyY ort �ert,r�t-,rm -�' fnilure pl,,4no from horizontal (degrees), Rtw,,ained (Xa', ike,-ained So -J.1 (K,) h-:ri 7,ontal componertly Orientation f 'ami lk�r-- plazie from Rcxt4lts uC Exfernal.,.stabliltd. Ana ly�-ms: Nate: cajcuj�,t,ed value' ,ET ALL esign critcria velj-il�?d R�,Imltrs 01 . . . ....... T,:�t,il flcrizQ,liLal Force (lbr,/ft.) I TC4r"" ,Lal VJ,cal 70rC4 -esisti,ng Movvnat (lbs-ft/fU Rearinq Cdpac-�I�y (psf', Maximum Beating P�ess,uro tp.nf A 0,206 0.194 $7.0 0.227 0.191 55.43 Op 1.5 OK 1.7 OK 2.0 OR 3.6 OR N/A N ,% 0.609 cah,:ujatad va I aes. $79.4 3972.5 2679.5 1595.1 10625.6 14134.0. FOS :,ii i di '19 3.94 FOS Lave rt�rnlng FOS Rearing CapACiLy 13.9 ,length (T,) (ft" 5-0 Base 4,-ccefitri, -,y (-,) (ft; 0.23 base Eccentricity .Ratio WL -2e) 0.65 Base Rsilnfrclmuenl- Ratio f7d[4t 0.83. Nate: cajcuj�,t,ed value' ,ET ALL esign critcria velj-il�?d R�,Imltrs 01 . . . ....... T,:�t,il flcrizQ,liLal Force (lbr,/ft.) I TC4r"" ,Lal VJ,cal 70rC4 -esisti,ng Movvnat (lbs-ft/fU Rearinq Cdpac-�I�y (psf', Maximum Beating P�ess,uro tp.nf A 0,206 0.194 $7.0 0.227 0.191 55.43 Op 1.5 OK 1.7 OK 2.0 OR 3.6 OR N/A N ,% 0.609 cah,:ujatad va I aes. $79.4 3972.5 2679.5 1595.1 10625.6 14134.0. SRWall (ver 3.22 April 2002) s2idl.,Iq 51WNIC TYI- C 2 d $rrorl" Page 5 .,,N a15 I :I 5 Elev Ly 0 ue,4 flbsft) lllbxlttd cotux-ctlon OhAlft) ................. . ..... ................ ...... ... ... ... .... 1" 4.67 -v cf !nrerm' Statl,;ItSl. y A. y.o 74.4 1210.5 >1.3 1 3:33 141.3 o V zc6gt4 Ancxr FOS 'FrIs rw Z4Y,x V.1 Type (L'L (i 11) Lc. -,IW Lb Ovct- VU.I.Zout spo�inq ai 10.67 on (ft) s I rre.$$ 0000 4.66 d ft) G. -O 900.0 OW > I:o > 1.0 >I -s > I.S c 3.0 OR 10. st oz 5 C tkom 2-76 - 6 1 4.67 6.0 1.63 "36-1 2 25 , 16.21 OK 6 1 3.33 6.0 0.1" 2:37 0 S&- 501 1.199 09 4 1 2.0 S.0 2.1 04- 1 1 7.42 ox 2 1 0.67 S.0 2.94 100. 9.67 S." ox NOte: I 7AIiie dt�eg NOT MEET d*s:L,4r. :iritsrton 44 omrjrramos� Oer.Axjt,k,f R#,,,svJr,i mf ,rternal Stab-411ty Ana-ly.141, SRW C-uo;tytl K.40 -w AT, IOWOIe 7egWe PUT 7out SlIdinq s2idl.,Iq 51WNIC TYI- C 2 d $rrorl" shos r IjrJ r Elev Ly 0 ue,4 flbsft) lllbxlttd cotux-ctlon OhAlft) 2,ofj 140, De5 u: At- ,�K t urmL og fpo&k� 1" 4.67 128.0 247.6 74.4 1210.5 >1.3 1 3:33 141.3 sm, s 192.5 1921.0. 4 1 2.0 I)V 186.2 1112.9 364.5 2631.5 2 1 0.67 2 231.0 20034 $60.1 3342.0 10.67 on N� tu 4.0 0000 01 Fjc�rq Aaa��Y:keu., SRK, Fee MIS Fos 51WNIC k",;6 shos r IjrJ r Elev TYPO Over- slh'��uz rDefomarlon) cotux-ctlon rrw nn) t urmL og fpo&k� >1.S >1.3 4 O.02 x Su >I.5 0. 7S in 9 5.33 nQl%* 14.83 21.09 CK 663.3 643.3 4.617 1 1 6.77 11.15 ox 10.67 on 7 4.0 0000 4.66 319.3 G. -O 900.0 OW 6 3.33 1 3.42 17.73 OR 10. st oz 5 2. V? tkom 2-76 - 0,0 - 1316 , 7 4 2.0 1 2.3 161.911 OK 8.75 OK 3 1133 VIC" 1.199 - - - - 2 0.67 1 1.73 I6.14 OR 7.63 1,806.7 1 11 A esu 1 55 2410.9 0.0 1970.0 ISMO lt�tccalcu,*Atod vi�-'�AOS MROT AU dcZiO criteria 1, , Fd,CzrT 04 a r) -tal2ee A*sul�s -011 �=_Cntlftd U_ , , S&W Fee Drive Resist shvwr shos r "r*nt -toad Capa C.' ty 5.33 tlatl 9.9 146.3 31.5 663.3 643.3 4.67 1 44.4 300.8 7411 926=7 826.7 7 Co norma 11112 319.3 G. -O 900.0 OW 6 3.33 1 22.7.4 743.9 ts.), II53.3 1153.3 5 2.67 Ito" 371. 1 1012.5 0,0 1316.7 1316 , 7 4 2.0 1 579.1 1329.3 67.5 1400.0 100.0 3 1.33 f1cma 840.3 1689.1 0.0 1643.3 1."3.3 2 0.67 1 1109.9 2057:4 10919 1006,7 1,806.7 1 0.0 aanx 1605.6 2410.9 0.0 1970.0 ISMO SRWal l (ver 3.22 April 2 02) Page '" 1 zv�s aitZ3 'x.52 Pesul*3 Of vac"nq ..Ar,s Iy.!f?. fd:r-t2»S&2"t,"san+aER3f; SKEW YAe 7 Con. ctj4;p cawOot O4 zC aPL .r.oad ciI!l' ?f^) !it;,e'tt,d3�t1 idECatn 0 4.67 1 126.0 1365.3 1365.3 6 3.53 1 141.3 14".3 1401 3 4 2.0 1 196.2 1623:3 1629.3 2 0.61 1 231.0 1761,3 176.3 Page Project Identification: Project SAWalZ (ver 3. 22 April 2002) Page 1 LN 051113 19213 XMMIaU V1000 iZ Komma"VA 98029 £,w t:'enee Ntiz—",ez ... 0511135 Marine STUART F49SZUXXKM DRZVWW XIMR sect lon: 5-rooT Tam x2yorom w4m Saxamc IAWIM Data Sh-not! Owner: RICHARD STUART kers rllarf. c Soptember 19 20l 1 T> ms ; 02:07-.12 IM f 11 t 6 ASr+Ma1132`X11-05?'-5sE 1 i1 -sot csloa4i g-st rt,r"i cs T= _Sr* r : € ui� � t ay�►thstie-�es.e d tal tt�r3� i�t11 Liesig Wall :Hei ght: ! f.;, i5.4 i -,.be : ent a.,+ I 14c:igI,t � ro 0.69 Lxposec r05i g ; Wall height 4;iia 5..33 III L-, Ve Lead surcharge Dead Load S "Cnrgc,; PI i etiOgU C,MhCSion Angle Unit weiq07""- Rei:',f Ced SQ,I aaod /A 36.0 130.0. ReLa .ined Say;, awed lv, 34.0 126.0 Levelling ad Soil qx***l tv 49.0 125.0 roundaticn 5uil sand 0.0 34.0 125.0 Cap ieiqhL On) ncMMMO Unit. Hei4:tFlU,� Unit W,;AL. � u) ?r? 21.5. unit Length AM 18VO Setback (in) 0..6 Weight nfilled) t (its) 248,0. Writ �f'4''£:3.i3�#'t.' vGravity WHOM) a�'�..p;.�:'.) 136,7 Center f S.i+M . 10.7s mi,riim,um (Ibs/ft) "010 500.0 sirict:i: n Angle Kdngrees) 45,0 45.0 Yax.i:Ttwm (z s /tr) 2000.0 20000 aF?Wa,l I (ver 3.22 Apra 2002) w 0,; 1135 L O/ M* . (deqrees) tainiinum (Ilbs `ft Fr�ic:'.i. ii Angie (eogrres ) miximum Type, I Type 2 0.7 .7 i*ype 3 0.7. .r Ty Cpe 2 Type 3 re a .CLQ fux 8eiam c csndlysi::, 1.00 1.00 1.00 s rz 1 2.00 2.00 2.00 1 Lxt .l t r t m r 3.00 3.00 3.00 Overa . l Factor of safety 1.50 1.50 1.30 Typo,.e'.3 Ta (Ib$k/ftt 411.11 291.67 589.89. (deqrees) tainiinum (Ilbs `ft Fr�ic:'.i. ii Angie (eogrres ) miximum Type, I Type 2 0.7 .7 i*ype 3 0.7. .r Ty , 0.95 0.95 0.95 Type I Typ Type .3 1233.3' 873.0 1756.7 22.0 22.0 22.0. 1$50:0 1312.5 2650.0 1233.3 675.0 22.0 22.,0 1850.0 1912.5 'rtrh -��i' 3ttt 1? Lc 3�.:3Ft Mall unit Tnter.fa.^o 15 car strangth. Type ' Typo .c ri �:ti car Arglir (degrees) Maxim^ate (iia f -Q Vii'na:n= (IIs/:t) Max;�t�JT> (Ibs l t t ) 500.0 600,0 500.0 MO 48.0 45.0 2000.0 2000.0 2000.0 500.0 500.0 $00.0 45.0 4#.0 200.0.0 2000;0 2000.0 SRWall (ver 3.22 April 200,P) Page 4 Ohl lents c* Earth Prcssurc and' Failutc Planc 0.r1en La t lions., ,*(-,nfZ[itien';- {k(int) 1, 0.25 Se i sm ' C: C, oo . f i Qerl �, ( k (ext) 1, 0.1 Ar,?infc?rced Soil IsLaLic) (Ka) O.206 Reirforcod (staLic) iK4 horiZontal CoMrone"t') 0.194 i Renfo=cd Soil static + alynamic.) (Kae) 0.38 R�inforced SoLI (sta-,ic + dyn.�mic) tKach horizoata l ot>mp,.,nen-1) 0.357 Crie;iIaLion, of failura plane, from horlzonta.,.. deqx,"S) 57 9 Retained Soi I (static) (Ka) 0.227 Retained Soil %3LdLla), (Kah horizonto-J, cqmponnnt) 0.197 0.202 n �etaipoo Soil I�stati- + dy amic� �,Faeb hori 7cntal compon,ent', 0.254 Dripnta*-ion of faiI�ire pilane troy: *,)ori7onta1l Idc-qrees3 50.29 Re5ve't..; of: Excetnal sto,,,Htlf S 1 3.56 1.1 OIK 5.77 1.15 OK WS Bearinq Capacity 16.51 1.5 OK ReiPItO-rRMCIn-t LleaPLI1 (L) [tt) 5.0 3.6 09 aye Eccezt r, c i t y ) 4tt'; 0.28 Base Eccentr 'city RaLio 0.06 N/A SaSe Reirf;nTICMei.L Ratio �T,/R) 0.03 0.6 OK Note: --alcul'ated valwues MEFT AT,T, C�f EAtexna,4, Stability A.UlYSeS.' Calculated, IWIlf"V: T;Lal Hor,17,ontal k'Oti�,O O.5/ft) 740,5 Total V�Drtiaal ForCe (11b.-3/ft) 3972.5 Sildin- Rcsistance 2679.5 Dri-in4 mQn*'At 1941.0 Rcsistiriq Moment 10625.6 Bearing Capacity (Par) 13966.0 Max.Lvam Bearing PresSure iPst) 894,3 r, h A r, 0r to IZ FOS M$ Layer U111- Type (tll) �i 01 g t �,, F010vt &, " i , d i n 4 U0 stress Ift i > 1.0 > 1.0 > 1.1 >:-1.',1- < 3.0 4.67 010 1.43 1.17 0. 02* 12.Sb 09 3.33 610 2.37 1.57 3.19, 0.25 CK 210 S.0 2.1 1.45 3.02 6,43 CK 2 1 0.67 5.0 2.44 1.14 6I54 $-34 Olt Ne,;,Le: * value does not NFV'T OeSign C*rit*rion fl orCUtrG-.ICeS' SOLO: Soismic analy.mix may not give the luweut flactor°� OL 4,Atety,for Fr, aqalnst reinftrzement G)V#.T-ntrp,13 in interuai calculatlorjs, Re Xurel to c+Ack r=rVent deSIVII using sta'IC =42yzis opti�ju ;SRWall (vex 3.22 Aral 2002) page 10 raz3x e uilolll RcWU"Its Ce Farm §cabllity A"Iyvea f�� aa�i(G73t: Rw Keei n es i tan cktu tss 3 ieCC,te at:. "�lt -.(Vv TYPO load c:a 4 -Sty Capt wtrjr fa'') t olct (P" k) (e#eefo tlb (lbBA✓fr) tjm/-ft) 8 4`:67 t",e=nmyn glen Al o-wj>.Ie renalle3 Pullout k,7id! rq 1365.3 6 3.33 1 361..9 1497.3 1497.3 4 2.0 1 264..1 1629.3 1629:3 2 0::67 8 169 1761.3 351.4 287.6: 46.4. 1210.5r 6 1 3.33: 11:1 264.9 834.9 232.!4 1921.0 4 1 2.0 411:1 204.1 1112:4 404;2 2631.5 2 1 0.67 11. 306:3 20ii3.0 625.4 3342.0 .({a '3U:. C:i t?.L F au•;.i sL•a:0•,. L'y •'.PkP° sA'F> t`r. Ana Iyxpaq r ,figbT i'!&&.i �Gtis L.`t':SC rcls F6,`s ,Shaer Fro$ uxazt Z1,C P}, tsar• Shoar (t6ofozataatirmO ccnnoczzon (rlmfexrm&tl m) (:f) turz.4 :ij7 ipoull .( ,ie k) >1.1 >1.1 60.02 YHtt >1.1 t 0..75 in 9 5.33nano 3.97` 5.94 OK - 8 4.67 1 2.01 3.61 OK 3.80 044 7 4.0 no" 2.15 - 111 - 6 3.33: 1 1.91 9.0: OK 5.72 OK 5 2.67 ftom- 4 2.0 1 1:84 10.63 CK 5;73 OR 3 1,.33 come 1.84 - - 2 0.67 1 1.78 12.02 GK 51<75 OR 1 0.0 no** 1.77 Ncte.: 4:a4.1C"":.:3. ,CLci v4lims MIET AU doaOt; crit*ria1.: Of FaC3nr'y7.*.,k'rtbI4t`C:y-A.i�i,'�".�PS aRo! � sB:i uki7 �$ tie! 1isa si SM14r shear `ht? r (:L) t'ti? -:t! J (Thx :ft/ft) i (lba/Z0 +Ou art #�artaC) CQt(�kYaB�ye^s} 9 5.33 36.9 1+4413 111.6 643.3 663.3 8 4,67 1 150:* 300's 224.7 026.7 026.7 7 4.0 40" 343-1 737.6 0.0 490.0 990.;.0. 6 3.33 1 619.8 1142:4 128:2 1153,3 1.153.3 6 2.61 no=* 943.0 15109.6 0.0 1316.7 131+6.7 4 2.0 1 1436.8 264CS 139..,3 148(4.0 1460.0 3 1.33 ttaa® 19". 5 3662:;+1 0.0 1643:3 1443,3 2 4:67 1 *4634.6 4608.1 ; 151..4 1406.7 1006..7 i 0.0 non* 3306;8 5496«1 6.0 1974.0' 1910.0 e uilolll RcWU"Its Ce Farm §cabllity A"Iyvea f�� aa�i(G73t: Rw Keei n es i tan cktu tss 3 ieCC,te at:. "�lt -.(Vv TYPO load c:a 4 -Sty Capt wtrjr fa'') t olct (P" k) (e#eefo tlb (lbBA✓fr) tjm/-ft) 8 4`:67 1 351:,4 2365,;:3' 1365.3 6 3.33 1 361..9 1497.3 1497.3 4 2.0 1 264..1 1629.3 1629:3 2 0::67 1 306.3 1761.3 1761.3 Pro test Identification. i ; ae,ass n'v'utttber: 0511135' ect ;far"; : 7 -FOOT TA= IMYSTOM W110MMkt`t. - SMXC SIM Data Sheet: owner: RZ Cilart Da'L.A�; Sept4mbev 18 2011 °Tran: 01:55'50 V" ra \per file& s .^.'^^.�.�:........ '0* .i�i�iiii TYPE Of z.�."'�i a �'.` �iAO��3i�li��C��i� <?�0� Sopmental Retexn=q WA11 Dei rs' e a3 # , i . MC Mh Method X t;xpQgec Design Wait Height {.ft) 7.33. Mirriber of S,cgm �z.ta Udall :. n '.9 Ri regc >ir.ight ft i Wall ..c:11na ion �O r;,Ps} 12' S.0 S a.] (ver 3. 22 April 2002) Page ZN COOK slo e : E U s$ Slope ( degree -) harL OAt l ..aackNS:cape ,aegxee r %o�cisr t�1 a rl� far. 2 iii "tJ t:r�. ixrjs : Live :,oad Surcliargc tur f: 200 conoxfon r"i.zgle wr, �f eIght. Wil D"z`ta: €..e6 i'"Ptis3n (,has.%: (de?greem) Reinforced Soil sand NIS 36.0 130.0 ta.n�d suit "Ad N/A 34.0 125.0 LCvc,II InPa. Soil 1"NYWO1. N W 4040 125.0 Fourdation it sAZxd 0.0: 34,0 125.0 Cap, Refight (in) Sanwa irit l:c igh dNui aY'w? f 8.0 Uri.!L width i Wu l (in) .21.5 Mit angth Pita: 1810 rt aok ji,r., 0.6 Might inlil leo ? (F hq) 245.0 Unit Weigg,,,a �, fLllea) pct; 136:.7 Center �mf Gz;hv.w.Q (in) 1005 egme t,07 -TP^it 4ntertacq .sear Data. it. ,Tt€uz `lbz tt't $00.0 500.0 rt < i 3n ;Lnq e (dicgrees) 45.0 4140 MaXLmlont: t 2000;0 2000.0 "yk ' c9," fi s�'f. �3i `er: Q#4*yntb*tjE3 ? 0 3T' t1A1t3C 0 PP qobsyntbat4c Reduct,10,11 Factoxls: G bN / f L) Type 975.0 Creep 5.00 2.30 5.00 Durabi I ty 2,00 2.00 2.00 Tr5talllatlor, Damage 3.00 3.00 3.00 Ovexall "actor of Safety 1,50 1.50 I.So ML 1233.3 zyp t' Ta s sl t 82.22 11,6.67 117.70 22. 1 0 22,0 Type 2 71ve 3 1930.0 0.7 0.7 0.7 Connoction, -SSttntiqth: Type 3 p I I Type I TYPC 2 Filtimatr strel�qLh crilter,10P.- Mini. rrn v-, G bN / f L) 1233.3 975.0 1766.7 7riction Ancile jdPgrpe,,-s) 22.10 221,01 220 14aximvm 1950.0 1312.5 26$0.0 ser -1 ce eta `c CrILerlon: ML 1233.3 $75.0 1766.7 Friction Anql(n ',degrees) 22.0 22. 1 0 22,0 -Maximlam, (Lb!i /f tj 1930.0 1312.5 2650,0 W9 S -Wail,: (ver 3.22 Aptil 20021 LIV 0.�12136 .......... wa :11terface Irma i. ,10,1 L lir"a t e 5'r rength Cr j te I it) ri Aftgie SdeVees) Maximum 1.6.t/fr) 50vvl Ce State Crit�rivn: Friction A-n,;Ie (dngrtas) Max imum flbs/ftl� Tyr,e :, $00.0 500.0 45.0 45.0 2000.0 2000.0 50010 45:0. 0 Page `i >e 3 500.0 500.0 45A 45.0 2000.0 2000.0 CIOCff.:CIeV,L$-,OfI,.rqrth Pressura and Failum P pae 1,entations: R%�ivilorced s0i 1 (Ka) 0,206 Re.-Lnfarced Soil (Ka hori7ontml components 0.104 Orient tic Qf failure plane from hori,7ontal (degrees" 57.9 Retaincl SCI! Wa 0.227 ReLained Soil (K4 horizortal couponent) 0.197 Ori ontation tailure plane Prov orixcntal (degrees I, 55.43 'Results of ExLexnal stablIftX , - ........... . ...... vallues MFFT ALL design criteria Ljetallee t�,.*^, Of FXtSrzjaI Stabil- 4,tllyse., sCalculated Values: -Y Ana Tot,aI fforlzontal rorcm (lbs/tet.) TULal VerLical Force Hbs/tti SlLidllng Resiitance (i.bi/ft,'j Dril,ri`vg MOMeIrit dIblilrrt/EL� Xe.,�isLinq moment of aring capaziLy (Pal) Maxiraum Beatalnq Presstire (psf) W crltt.,�ra FOS S7 iding 3.08 1.5, OK 70S QvexLuxnJzrg 6.12.. 1.7 OK FOS BeailingCftpat—', Ly 12.4 2.0 OK Aese Tongth (L) (f t) 6.0 4.9 Olt Base Fccentr-,.mity 0.28 N/A Ri�qo E�,,centx;city Ratio 0.0 N/A Base Peinf�oy,Prent Ratic, (.L/fit 0.75 0.6 OK vallues MFFT ALL design criteria Ljetallee t�,.*^, Of FXtSrzjaI Stabil- 4,tllyse., sCalculated Values: -Y Ana Tot,aI fforlzontal rorcm (lbs/tet.) TULal VerLical Force Hbs/tti SlLidllng Resiitance (i.bi/ft,'j Dril,ri`vg MOMeIrit dIblilrrt/EL� Xe.,�isLinq moment of aring capaziLy (Pal) Maxiraum Beatalnq Presstire (psf) W SRWall (ver 3.22 April 260 2) f. ?�5117,3 1 POSVITS Of 5r#b!?1tV Anj?Vses: $AW as <n Kiev l,*nqth AM:7,M? un �' t Type Ofir, r ft) Length. # t fr) > 1.0 > 1.3 (ftl < 3.0 I'll 1.97 29.84 > 1.0 12 1 7.33 7.5 lz" 10 1 6.0 7-.S 2.4 a 1 4.61 6-5 2.13 6 1 3.33 6.6 2o#7 4 1 2.0 610 3A 2 1 0.67 6.0 3.84 Notc; * vAlue does NOT MEET del slyz criteric DeLaled RCSU!t5 I)f ITItArn41 $tigblltv AnItly Page SAN "*0syn -c4,-v 1 A11OWWO "'OnS120 Over- 5 1 ; d fmg S.Udirq spjcil�q st�rtsz 110 $rremp:h Load t fr) > 1.0 > 1.3 > 1.5 < 3.0 I'll 1.97 29.84 OR Obs/ft) $.33 13.63, OR 5.74 9." CXK I.S 914* 7-64 OK 12 9-72 6.23 cm 0.28 121:40 x.02 09 Page SAN "*0syn -c4,-v 1 A11OWWO "'OnS120 Pull&ut 5 1 ; d fmg 411ding Uri it 'yyfae 110 $rremp:h Load C"a" city krxce Capacity # i1bolft1 (Ibs /I t abslft) (IbS111 t Obs/ft) > 1.5 I.S < 0.02 x Ou > 1.3 < 0.75 in 12 7,33 1 1.2 1 7.33 92.2 74.1 146.2, 31.7 915.1 10 1 6.0 62.2 118-9 633.4 129-0 1743.,2 a 1 4.47 02.2 163.7 939.4, 268.0 25'75.3 6 1 3.33, 92.2 209.6 1740.6 431.4, 3405.5 4 1 2.0 82.2 253.4 2462.4 670.4 4235.6 2 1 0.67 02,2 206 , 2 3123.4 0510.1 4749.1 - - J, 4. P� 2 'Re xulta c FoCL-2 j�r 11-11 tm;lty-4�suL sar�'c stag' b**! . Cv 0s,Yn t,-, c t I C. POS Flo& Shear r1o"T ur�zt zlcv Type Ovex- Mwar icteformatiano �Oannwczi -�m, frl turn i ng, fpea*,) > 1.5 I.S < 0.02 x Ou > 1.3 < 0.75 in 12 7,33 1 14-43 21,00 OK 17.53 OK 11 6.67 00" 8.0 - - 10 6.0 1 5.15 16.36 OK 12.03 OK 0 S.33 nova 3.92 - - - 9 4. 6*7 1 3.08 17:26 OK 9.55 09 7 4.0 2.36 - - 3.33 1 2.19 ICAS OR 8.13 09 5 2.47 VAN30 1.91 - - - - 4 2.0 1 1-69 16.27 OK 7.21 OK 3 1.33 no 1.52 - - 2 0.67 1 1.37* 13.94 OK 4.2 1 0.0 non* 1,26* - I - a t v"ue aocs NOT NEXT deSign ctitorler. s "Currences) SRWall (ver 3.22 April 2002) ray asaz�s Q,! Fac-i4g Stab -1,21,!Y AtWlys�s twt ap A" Reel ctw Orl vo Res i's r 5h*#,r V.mi t Zi e,., v Type mome'Int IMOA*nr. L0q d # I'LL) Obs ft/ft) Uba-ft/ft:) f4bal-CL I #out -1.1 i1 6.67 10 6.0 9 5.33 3.33 5 Y.67 A 2.0 3 1.33 2 0.47 1 0,0 144,3 31.5 353.6 44.4 $73.1 111.2 453.5 217.6 1142.2 311.1 AM* $70.1 1 849.3 2276,3 0.0 27074 ISMS tis 2106.7 37W1 143.6 MOW 3392.2 . ... ...... 144,3 31.5 353.6 0.0 $73.1 53.0 453.5 0.0 1142.2 16.3 1493.7 0.0 1853.5 0.4.7 2276,3 0.0 27074 12-1.1 3261.1 0.0 37W1 143.6 42", 2 0.0 663.3 Page 6 826.7 026,7 VNIO 990.0 Cap; c! t1x c4pacity Ubslft) 1314.11 1400.0 IAWo 663.3 663.3 826.7 026,7 VNIO 990.0 103.3 1133.3 1316.7 1314.11 1400.0 IAWo 1443.3 1$43.3 I80411 INS. 7 1070-0 1970.0 2000.0 2000.0 2000.0 2000.0 2000.0 2000.0 SIRX Mee Z C" cinnoct'lon cw)"COon conrocti"= Veit 4:44v 131" Load co.fry capacl y (4 0 rpeaki t&eformariom) fibsIlt) Obx/ft j 12 7.33 1 74.1 12".3 1,? 94.3 10 6.0 1 119.$ 1431.3 1431.1 a 4,67 1 163.7 1563.3 LM -3 6 3.33 1 209.6 1,405.3 1695.3 4 24 1 MA 162719 192713 2 0A7 1 299.2 isso.c 1950.0 SRWall {v .3.22 April 200( ?) -L.V 051123s „ 4.3 degrees 6.0 t t — t Project Identification. - Project Name; STUART RUXDNNM DR"V"XRWM=XM WALL Section: 7-Y00T TALL MMSTCM B M= - STMXC LoADINe DataSheet: Owner: RXCR STUART Client: SRWa l (icer 3.22 April 2Q 2) mule c . 0513135 Projact Name; $TVA= IMIDJXCX DRIB PSTAXO'i WAM Page 1 Type a,� tal 8 to q ftI I ISMIC Lleak Ground Accel,oration (PGA) ratio 0.20 Wo i .% Geem.1ptry, es iqr. 'Wall iieiLgh (ft) 8.0 WaIL Hoigk: (ft) 0.67 Exposed !)est r Wall Aeig st (ft) 7,33 Minimum T,evolling Pad `hick ozsstt) 0).i. 3'in e Height { t) $.D Wal', Tn l matt, 4dogr cj� 4.3 3,RWall (ver �4.22.April 2002) '51v . �,Ies: Frc,,:it sale e (degrees) horizontal Back S!Qpe (dejrees) horizontal U"if'ormly Vis�z- 41ted surcha Lcad -"�"xcharqe rumm Dead Loa -sl Sur:harge AOUO 2371 Page 2 J�r or cohq�;io,n Ang1c Mift wcight: T',cs c r. IP 4c ia,: (Pot' (deqra4s) flcr ReInforceo Soil *and N/A 36.0 130.0 I�"-alnel Soil *and N/A 34.0 125.0 L,evellinq I�ad Soil gravel N/A 40,0 125.0 !;,�il O&A4, 0.0 34.0 125.0 Lam LN�� MI t UaAq scgmcntal ""nic pata: C -a r, H03 g1r, , ( I r, I Unit .11CiqhL (Hai (in) 910 Ur'ut Widlh 4 v 21.5 'Ir, Lp18.0 ngth fin) St. Iback (in) 0.6 we""Ot ,, i,nf il lod) (lbs) 245.0 "Imit Weiqh, JntiAoa) Center of GraviLy (in! 10.75 se=ental UrIt 7rtcrfA,*:e shc4r, £)a s: P rope r t , n,� vit-imate strenith Crltvarla Sere Ce attato- CrItcria Minimum (1h,9/ft) $00.0 SOO-0 F-ri-CUOr. AnqIe (deqrees,� 45 0 45.0 Maximum (Ib'.1/tt) 20�0. 0 roos3mthatic -voev and vumbar.- SRWaIl (ver 3.22 April 2002) 05 i m 315 Cep st'rae 7,7th and f`yly; e4 ,`: Vie. Ultimate Strength (lbs/ft Polymer Type. Page 3 Tie I 75T�,s 2 xy e 3 700.0 2+623.0 5300.0 HDIM or palyastex HbPX or PP Redukt•ior, Fac.x'axrs: TYPE: I Type 2 73ep+ 3 reed i-:. 0 for seiamic anal ys s) 1.00 1.00 1.00. `u, n:'9i i.tv 2.00 2.00 2.00 Instal-'atior Damago 3.00 3.00 3.00 {M ver l." r act4oa', of safety 1.50 1.50 1.50 'IT sbs'�."� c A J . c wi#%l S .i`.�' 1� '�:'#.: Type t, ��' '6� Type 3 `a { l t s i ft ) 411.11 291,67 588.89 -`7 (M t J ii: +C w`G''`L`:T,C s....,�.' a" 3 d3` I Typv 1 Type. .�f. t 0.7 0.7 0.7. "£?,ssff. cie :tt `"°t, t�,-, r:C:t .Skil.)q Type I T --pe do t' 3 0.95 0.95 0.95 conn. c t *0 5trr� nc t Type I 7yp0 2 2'�Ve 3 UIL!Ma.*'e Strength, Criterion; NI r:zm.: i (lbs/IL) 1233:3 675.0 1766,7 FriCLio:: Aiiqle {degrees 22.0 22,0 22.0 i��saxx kum (:bs/t}) 1650.0 1312.5 2650.0 + `: "1 ta?ti2'£; (I hs / f t) 1233,3 875.0 1766.7 Fri L;t;.oaln�gle (degrees) 22>.0 22.0 22.0 Maxir-ate alt DIY ;: 18'30>6 1312;.5 2650.0 SRWall 'ver 3.22 April 2002) LN w 1;-�ex dace $!ear .stre"! t � Type, i. Max imum Maximmir^ (I ts 'i ft) Type w $00.0 500.0 45.0 0.0 2000.0 2000.0 00 0 45:; 2000.0 500.0 500.0 500.0 45.4 44.0 45.0 2000.0. 2000.0 2000.0 ,.%:e fic er:wa -f Earv.a Pressure and Failure *lane Orienta-cions» seisrLc Coe* fico t (ki$nt 0.25 se;i.',sTM'sic C,;aeff icerrt.. i �eXO 0.1- Rpinfot-Ce $oil tStaLiC) iKa, 0.206 Reinforced c 1 (Static) K by a i ntz t ccorponenO0.194 � stat c + dynr ami c Mae) 0.38 Rei-nfo- ed Soil (static .F dynamic (Kaes. h.ori:z nt,al component"0.357 _ .s '.. 'ViX. "Or'cnratlon of t,§01are plane lrom horiz6ntat (deytees) 57.9 '4vtained Soil (static) (Ka) 0.227 Retained Soi,. (static) tKa h liori7ontal cmvonentl 0.197 Retained Sot I (t4taaLiC + dyram;I.�) fKa e) 0:292 Retained < I stat is f• dynatrt .�) t c eh horizontal c,=ponont) 0.254 O.c,:entatior. )f failure plane.fron. horizontal (c% Desi $0.29 Results of FYtornal Stabil�tv of 4Xtefnal SLabilltV Analyses: Calculated Values: T tal "`fi r-ri l Force Ubstrtj � riv4nq Mvr*�tt r tin-fr/ft) ReaisLinc Moment fibs-ft/ft) Bearfng fapa^icy (prfY maxirmint Beat a.g Pressure C srd 1327.5 6336.17 4274.1 4350.9 20570.7 �86i8: MOS S'.: i wrsg 3-.22 1.1 OK. 70's vertu r:ling 1.15�oft . :-,OS $Lc a'",.. ',: .; Capart°.t~y.. #4y.73� i2. K _ .s '.. 'ViX. Rale Refnfor: CMOZI.L LengLh (.0 tit.! 6.0 4.9 Ott Bame ".",i=eP.Lr C ty (e) (ft) 0.43 N/A Base �ccentric,ity Ratio 0.04. N/A Base Re nfor'emer Ra:,ip (LIH) 0.75 0.6 Ox 'N ate: calculated valuos MtZ ALL dem! :rit:c rid of 4Xtefnal SLabilltV Analyses: Calculated Values: T tal "`fi r-ri l Force Ubstrtj � riv4nq Mvr*�tt r tin-fr/ft) ReaisLinc Moment fibs-ft/ft) Bearfng fapa^icy (prfY maxirmint Beat a.g Pressure C srd 1327.5 6336.17 4274.1 4350.9 20570.7 �86i8: SRWall (ver 3.Aprl 1 20 02) Re-2ta of Z isrr.ai SL&WIItY (5018M.�C) AndlvSos, Eff" mm 4"Hw 600qvm Elev Length 'k�chor r06 MIS ir$$ Layez unit rype ill 0 ft) Ifmgrrh Ovwr Pullout 3�44'j'i'4 Sp4cinq t ar.-Ung weak) tftj stress (fr) >3.:! 12 1 7.33 IIA > 1..0 > 1.6 > IA 1.1 < 3.0 12 1 7.33 7.5 1.66 1.5 0153* 16-43 OR 10 1 6.0 't.$ 2' 4 1.30 2.14 8.44 on 5". 6 1 4.67 6-5 2-13 7-211 2.0S 6.81 OR 6 1 3.33 6-$ 2.17 1.11 5.2 c$e OR 4 1 2.0 2.03 3.1 1.I3 6.79 4.02 OR 2 1 0.67 6 ..0 3.94 1.07: 9. a 4.i OK Notu: * v4.lje does N(Yr MEET des.Lyn criLcrion occUtrencox? Note: sci*mic analystx may not give Uw ioWest factors of safety tur FOS #g4inar, rwmforcemetL f>ver-strfts� in interna. Stabilty Calculations. Se sure to IChuck c4rronr d*sigr using ut'g4ilr D,Cizi Oee Posults cat' Zaterral stability Analyao'-, Spm Cv0syr, J�Iev Allovabile IOnsile PuLl "r Sliding $A zdInq MI'l t Type U, t) Stromth .boa" d ICOPAIG i ty Sh"r Capacity (d&LvtmdtIO'W # Ift) t ar.-Ung weak) ZO/I -zo 4-r v'54= A >3.:! 12 1 7.33 IIA 274.0 346.2; 55.7 915.1 10 1 6,0 11.1 906.2 413.4 197.0 1745.2 TAQU9 4.0 11.1 314.11 039.4 314. 31 2573,3 6.0 3.33 11.1 346.5 1769.4r 5". 6 340$-$ 4 1 ertaM 90.7 140.6 - 42393.16 2 1 0,167 411.1 384.4 3723.0 1161.0 471691A 'qRw he*l Ge';Oy'qthetic Y106 FOS $40ax FOS FOPS cawwctioh Onit z1*v, . Zyve Sh"r welorm 1w,3 oma (d&LvtmdtIO'W # Ift) t ar.-Ung weak) (peak) >3.:! >1.1 K0.02xRu >1.1 40.75 in 12 7.33, 1 3.29 4.94 Ox 4.74 OR it 6.67 TAQU9 3A$ - - 10 6.0 1 2.46 6.41 OIK 4.83 OK 9 $.33 ertaM 2.34 - - - 6 4.67 1 2.1 4.42 09 4.91 OK It 4.0 awls 2.03 - - 3.$3 1 1.9 9.61 4.915 OK 5 2.67 ssaua 1.05 - - 4 2:O 1 1.77 13..03 OK OK 3 1.33 DODO 1.74 - - 2 0. v 1 1.64' 10.55, OK 4.81 09 1 0.0 14s - - - Not*! zalculatod valuet MEET ALL design crltviia ,14 SRWA11 (ver 3.22 April 2002) Page 6 LN 91511133 . . ... . .. ..... . . ...... tailed, Results MAO= and 540dr9: SAN Tarel 00o prvet Rtsixr shoar St vdx s4ea, r Un A'Iev v"Cl ty moment ftmwnt Load cap" I ty vop*rl ry (Peak? (ft) f2bs1ft7 flbn/ft) tlbs/ft) 12 7.33 1 274.0 120913 +6ur m fpomk) tdrsfW,24 f 1 0:1� 12 7,33 1 " 4 146.1 134.3 663.3 6".3 11 co rdou* 190.2 VC9 0.0 926.7 024.7 to 6.0 1 411.1 1011.6 145.3 09010 990.0 9 '6:33 no" 740.6 1130.4 1153.3 1IM3 a 4:67 1 1172.6 2"7.1 156.4 1316.7 1314.7 7 4.0 VA" 1710:7 3447.1. 0.0 1is0.0 uwo 6 3.33 1 13116.6 4"A. f los 1443.3 1643.3 5 2167 rAxw wo-I 5784.4. 0.0 1e06.7 ISO 6.1 4 2.0 1 3498.7 7092.4 MA 1970.0 197010 3 1.89 z 4499:2 0602 s 0-0, 2000.0 2000.0 2 0.61 1 6122.2 102*019 189.6 2000.0 2006.0 1 0.6 7374.6 12161.5 0.0 1000.0 2060.0 Dotaiiol Pespzrs -R-f Faclh2 stskzNty Ar. F? Gelo ronnoct4on Conn*ct-iam ccunnection, vnli� ziev ryp* Loao v"Cl ty COpotj ry #1tEk 1lLiiffri (Peak? 12 7.33 1 274.0 120913 1:2". 3 10 C01 , 296.2 1431.3 143113 a 4.6 I 1 318.3 1563.3 1503. 3 6 3.'33 1 340,5 1446.1 Ms .3 4 2,0 1 362.7 107.3 1827.3 2 0167 1 3$4.* isso.6 '1950.0 SRWall (ver 3.22 April 2002) 4 a 3 dpqrmes Page 7 sla I Project Identification, Pro i ect LIU & ASSOCIATES, , -INC. Geotechnical Engineering Engineering Geofogy .September 28, 2011 Mr. Richard Stuart 1109 - 12"h AvenueNorth Edmonds, WA 98020 Dcar Mr. Stuart: Subject: Geotechnical Investigation and Design Precast Concrete Block Wall for Driveway Stabilization Stuart Residence 1109-12 h Avenue North Edmonds, Washington 1.4&A Job No. 11 -057 INTRODUCTION Earth Science The rock -en, wall along the west side of the paved driveway on your propeM,, located at the above address in Edmonds, Washington, failed recently. We understand that you plan to build a precast concrete block wall to replace this failed rockery wall in order to stabilize the driveway,. At your request, we have completed a geotechnical investigation and performed a design for the proposed block wall. Presented in this report are our findings of the subsurface conditions in the area and our design of the proposed block wall. PROPOSED BLOCK WALL Your contractor informed us that removal of* the tailed rockery wall will require use of* heavy equipment which could damage the pavement and destabilize the, existing driveway and put the safety, of workers at risk. He recommends that the stones of the rockery wall be left in place. We concur with this assessment and recommend the rockery stones be left in place wherever possible, with the voids between the rockery stones filled with 7/8 -inch crushed rock densi fled to a non -yielding state with a concrete vibrator after disturbed soil between rockery stones is removed as much as possible. RECEpVE.:r,_ U OCT 7 2011 19213 Kenlake Place NE - Kenmore, Washington 98028DEVELO Phono (426) 483-9134 - Fax (426) 486-2746 PiVUNT SERIACES CTR CITY OF EDMOrILIS CITY COPY September 28.2011 Precast Concrete Block Wall — Stuart Residence L&A Job to. 11-057 Paige 2 The proposed precast concrete block mall e%ill be up to about 12 feet tall: A block wall of this height v ill rewire oeogrid mesh embedded in the backfill of the wall to achieve long-term stability. Structural fill of selected material will be required to backfill the block wall. A perforated PVC: pipe drain line installed along the base behind the wall will be required to collect surface runoff and groundwater flowing towards the wall. Nater collected in the block wall. drain line should be tightlined to discharge safely into a storm sewer or dispersed through a spreader pipe cn er a relatively flat and well ti egetated area, to not cause_ e -rasion problem. SITE CONDITIONS Surface Conditions The general location of the. subject residence site is shown on Plate I — Vicinin-- flap. It is situated on the upper portion of a moderate to steep, westerly -declining hillside. For our use in this investigation, you provided us with a topographic survey plan of the site shown on Plate 21 According to this ,plan, a relatively fiat bench area lies in about the eastern two fifths of the site where a. house and a paved driveway are located. Lining the wet side of the driveway is a rockery wall which had failed recently and is to be replaced with a precast concrete block wall. From the base: of this rockery wall out about 17 to 18 feet to the west is a gently sloped bench area declined gradually to tui existing concrete block wall less than a foot tall. Below this concrete Wall is a steep slope descending, at about 50:`a grade or more towards a relatively level bench area along the crest boundary of the site. The bench area at the base of the rocker% Lull is dotted by scattered young ornamental trees. The steep slope ikest of the short concrete i+all is landscaped vVith flovler plants and shrubs., with the west boundary area of the site dotted by tall mature evergreentrees. ITU. & ASSOCIATES, INC. September 28, 2011 Precast, Concrete Block Wall — Stuart Residence I.&A Job No. 11-057 Page Geologic Setting The Creologic Map of the Edmonds East and. Part of the Edmonds West Quadrangles Washington, by James P. Minard. published by U. S. Geological Survey in 1983. was referenced for the geologic and slid conditions at the residence site. according to this publication, the surfiicial soil units are mapped as a Vashon till soil unit (Qvt) within and around the residence site underlain by an advance' Outwash soil unit (ova) on the steep slope to the west of the site. The, Vashon till. soil unit was plowed directly underglacial ice during the most recent glacial period as the glacier advanced over an eroded, irregular surface of older flormations and sediments, It is composed of a mixture of unsorted clay, silt; sand, `=ravel, and scattered cobble and boulder. The Vashontill soil over the top two to fbur 1ect is normally weathered to a medium -dense state, and is moderately permeable and compressible. The underlying fresh till soil is ven. dense, and is commonly referred it) as "hard pan". The fresh till deposits possess the strength of low-grade concrete, and can stand in steep.natural slopes or .man -make cuts liar a lung period. and are practically impervious to stornikvater infiltration. If remained undisturbed and well -drained, the fresh till soils can provide excellent foundation support to structuress with little settlement expected. The advance outwash soil unit, snapped on the hillside below the subject residence site, is composed of stratified sated and gavel with very minor amount.of silt and clay, deposited by the meltwater of advancing, glacial ice. of the last .glacier. Due to their generallygranular composition. the advance outwash deposits are of moderately high permeability and drain, fairly well. The advance tit€tvvaslt deposits had. Igen glacially overri-dden and are generally dense to very dense in their natural, undisturbed state, except the soil in the top 2 to 4 feet which is normally weathered to a l Ose to medium -dense state. The advance. out%vash.deposits can stand in Steep cuts or natural slopes for extended period v.,hen undisturbed.. Where exposed (in ;lopes with poor vegetation cover ,and subjected to storm runoff or groundwater seepage, the advance LIU & ASSOCIATES, INC. September 28. 2011 Precast Concrete Block Wall - Stuart Residence L&A Job No. I1-057 Paue 4 out,,aash deposits can be gradually eroded and may slough and redeposit to a .I.latter inclination. The underlying fresh advance outwash deposits in their native, tutdisturbed state can provide good foundation support with little-ettlement expected for light to modern-ely. heavy +tructur"S. Soil Condition We conducted a subsurface exploration on a site located at 2xx - 1-20i avenue North in Ednionds (hereinafter referred to as the "Relerence Site-), a short distance south of the sue jcct residence site. Both the Reference Site. and Elie suhjject residence site ars: mapped within the same Vashon till soil unit according to the above -referenced geologic neap. Test pits excavated on the Reierencc Site encountered light -gray i'resh till deposit of vcry-dense. gravelly, silty line to medium sand with occasional cobble at depths lrorn 0.7 to 3.0 feet. We expect the soil condition at the subject residence site to be similar to that at the Reference Site. We probe the soil condition in the ,gently sloped bench arta at the base of the failed rockery wall by manually= pushing a steel T -bar into the ground. The steel T -bac could penetrate no more than 2.0 feet beep. Based on the above -ref renced geologic Wrap and our ground probing result, it is our opinion that the bench area at the base of the failed rockery wall on which the proposed block wall is to be installed is underlain at shallow depth by eery -dense fresh till soil. Groundwater Condition The fresh till deposits underlying the bench area at the base of the failed rockery v. -all at shallow depth is of extremely° low permeability. Storm runoff infiltrating into the surficial more permeable soil would perch on the surface of the underlying fresh till soil. This near -surface perchedgToundwater may completely dry up during the d.n.-er summer and fall months. During the wet winter and early spring. the near -surface perched groundwater would accumulate and I'low laterally along the surface of the underlying Gesh till soil and . would seep into the Lehi & ASSOCIATES, INC. September ?R, 2411 Precast Concrete Block Wall — Stuart Residence L& Job No. 11=457 Page 5 moderately perrheable advance out"'vash soil where it is in contact Nvith the till soil on the hillside below the. subject site. GEOLOGIC HA.7A UIS AND N1ITIGAT1ON Landslide Hazard About the western half of the residence site is of steep slope at 40% grade or more. The bench area at the base of the failed rockery .wall on which the black %well is to be constructed is underlain at shallow depth by very -dense fresh till soil of high shear strength. On the steep slope beyond the subject site to the kvem.. the Vashon till ,oil unit isunderlainby dense to eery -dense advance out+4ash soil of nlodcratelyE-high to high shear strength. Roth soil units have high resistance against slope failure. Therefore, the potential for deep-seated landslides to occur on the subject residence site or the hillside immediately below itshould be minimal, provided the recommendations in this report are fully implemented and complied with during construction. Erosion Hazard The thickness ofthe surffcial topsoil and weathered soil over the bench area at the base of the failed rockery wall is thin. These weal- surficial soils are of low resistance while the underlying fresh till soil is of high resistance against erosion. There isanoutside chance: that: erosion may occur in the weaker sur%cial. soils over the bench area and the adjacent steep slope if they are . devoid of vegetation cover and overly saturated. Progressive erosion can lead to shallow, skin - type mudflows on the slopes. To mitigate such erosion hazard: vegetation outside of construction limits should be preserved and maintained and exposed ground should be covered with plastic tarp, as required, for protection against erosion. Unpaved exposed finished ground resulted from construction activities should be re -seeded and re -vegetated as soon as possible. Concentrated stormwater should not be discharged uncontrolled onto the ground within the site. Stormwater ii,,er impervious surfaces, such as roofs and paved driveway. should be captured by LIU & ASSOCIATES, INC. September 28.201.1 Precast. Concrete Block Wall - Stuart Residence L&A Job No. 1.1.O5 i Pace G underground drain lint- sv�tems connected to roof downspouts or by catch haiins installed in paved driveway. A curb or line bump should be installed along the western edge of the existin.- paved driveway, as required. to keep runoff on the driveway from spilling tanto the backfill of the - concrete block wall. A drain line should he installed Tong the base behind the proposed block wall to collect surface runoff and groundwater flow=ing towards the block wall. Water collected in the above drain line !, •stems should be tig,htlined to discharge into a -storm sewer or a suitable stormwater disposal facility systcnn. such as a spreader pipe system, Seismic Hazard The Pueet Sound region is in an active seismic one,. The residence site is underlain at shallow depth by very -dense fresh till deposits of veru -high shear strength. Therefore, the potential f'(,)r seismic Nr ard-,, such as landslides. liquefaction. lateral soil spreading, to occur can the site should be, minimal if the erosion mitigation. drainage control, site- stabilization measures recommended in this report arc.fully implemented. The proposed bloc;], wall, however, should be designed fir seismic forces induced.based on a 100 -year seismic event With a maximum peak ground acceleration of 0. g(g _gravitational ac.celeiation). This maximum peak ground acceleration may be adjusted for the design of the black wall according to its Ilexibility and the non -unison movement of the blocks during earthquakes. RECOINI IENDATIONS General Our proposed alignment of the block wall is shown on Plate 3. We recommend the block wall be constructed of Kcvstone Standard blocks (8 -inch high x 18 -inch wide x 21.5 inch deep). As shown on Plate 4 — Concrete: 131ock Wall Typical Section; the block wall should have geogrid mesh reinforcement. embedded in its backfill. except where the wall is no more than 4 feet tall. A drain line should be provided along the base belihid the wall. The wall. should l±c, lbunded on a. minimum 6 -inch layer. V8 -inch crushed rock, leveling ha e, placed over firm. undist-ilrbed. firm LIU & ASSOCIATES, INC. September 28, 2011 Precast Concrete Block Wall — Stuart Residence L&A .lob No. 11-057 Nage 7 bearing soil. Loose and disturbed soils, if any, within the keyway{ trench should be over - excavated and replaced with compacted. structural fill. A vertical drainage blanket, consisting of clean 7t8 -inch crushed rock, at bast 12 inches thick horizontallyshould be placed against the back of the Mocks. This drainage blanket should he hydraulically connected to the will drain line at the base. Compacted structural fill should be used to backfill the vvall beyond the vertical drainage blanket. Da;sign Sail Yarametem "-Che proposed precast concrete block wall varies from under 2 feet to about 12.0 feet tall. We recommend that the wall he designed for a hussy drained condition in accordance with the following soil perimeters: The block wall should be designed for minimum factor of 1.5 against sliding failure, 1.7 against overturning failure and 2.0 against 6oundatioit bearing failure under the static loading condition. The Puget Sound region is in ail active. se6mic raise and the block wall should also be designed under the stisniic loading condition for a 100 -year scfismic event. The peak ground acceleration R)r such an cvcnt in the 'Puget Sound region is about 0.3g (g _ gravitational acceleration). The block wall, however. are built with interlocking concrete blocks with some flexibility, and the blocks do not move in unison during,. earthquakes. Therefore, for design of the block wall under the seismic loading condition, the ground ucceleration may be reduced to Mg. The block tivall should designed for a factor of safety of at Imst 1.1 against sliding failure, 1.15 against Li U & ASSOCIATES, INC. Reinforced Retained Foundation Leveling Soils Soils Soils Rock Base Unit Wcight, r, pef 130 125 125 125 Angle of internal Friction. 36 34 34 40 �, degrees Cohesion, e, psi 0 0 0 0 The block wall should be designed for minimum factor of 1.5 against sliding failure, 1.7 against overturning failure and 2.0 against 6oundatioit bearing failure under the static loading condition. The Puget Sound region is in ail active. se6mic raise and the block wall should also be designed under the stisniic loading condition for a 100 -year scfismic event. The peak ground acceleration R)r such an cvcnt in the 'Puget Sound region is about 0.3g (g _ gravitational acceleration). The block wall, however. are built with interlocking concrete blocks with some flexibility, and the blocks do not move in unison during,. earthquakes. Therefore, for design of the block wall under the seismic loading condition, the ground ucceleration may be reduced to Mg. The block tivall should designed for a factor of safety of at Imst 1.1 against sliding failure, 1.15 against Li U & ASSOCIATES, INC. September 28, 2011 Precast Concrete Block Wall — Stuart Residence LAA Job No. 11 -05 7 Page 8 overturning failure. and 1.5 against. Coundation bearing failure under the seismic loading condition. Wall Drainage A minimum 6 -inch, perforated, rigid. PVC drain line wrapped in a non -woven filter fabric sock should he laid in the keyway trench behind the base-cour l bltx:ks embedded in the crushed ruck base course. The bottom of keyway trench and the. drain line should have sufficient slope Ri percent minimum) to generate pow by gravity=. The drain pipe should be tightlined from a low point at about the Enid -length of the wall to discharge into a spreader pipe system over a well - vegetated arca on the slope, below. A vertical drainage blanket. constructed of clean lig-inch crushed rock, with a horizontal thickness of atleast 12 inches, should be placed against the back of the blacks. This vertical drainage blanket should be_hydraulieally connected to the drain line at the base behind the «all_ The wall backfill behind the vertical drainage blanket should consist o1'compacted structural fill. Spreader Pipe Dispersion System Water collected in the black .wall drrun luaeshould be tigh_ili:nedto discharge into a storm sewer. If no storm sewer is available, then water in the block wall drain line may be dispersed through a spreader pipe s) stent over a relatively level and'.yell-vegetated area at least 15 feet away from the block wall. A typical section of this spreader pile system is shown on Plate 5. The spreader pipe. system should be composed of 6 -inch diatneter by at least 30 -foot. long; perforated, rigid, PVC pipe, set level ai about 2 to 5 feet alcove the ground curl:ace. This perforated PVC pipc.should be supported on and anchored of 2 -inch -diameter, schedule 80 12.375 -inch outside. diameter by 41.218 -inch wall), steel pipe piles, spaced at no more than.8 6et on centers, driven.at least 5 feet into the ground, as shown on Plate- 6. "rhe -above -grade portion of the tightline from the block wall drain line, traversing dawn the slope and connected to the spreader pipe, should also be LIU & ASSOCIATES, INC. September 28, 2011 precast Concrete Block Wall — Stuart Residence I AA Job No. 11-057 Page 9 supported on and anchored to 2 -inch steel pipe Piles. All steel member of the support system should be painted or galvanized for long-term corrosion. protectiOn. Water discharged through the spreader pipe will evaporate into. the ambience, absorbed by the, root system of the vegetation on the slope., and with a small fraction infiltrate into the ground. Water flowing out of the .spreader pipe will be at such low velocity it would not cause any erosion problem on the slope. Wall Ruckrill Back -III] behind the vertical drainage blanket of the block wall should consist of compacted structural Fill. Structural fill should be composed of clean, granular soils free of organics and debris, with particles no larger than three inches. Onsite clean till or advance outwash soil meeting the above requirements may be used as structural till. Structural fill should have a moisture content within one percent of its optimum moisture content at the time of placement. The optimurn moisture content is the water content in the soil that enables the soil to be compacted to the highest dry- density for a given compaction eft- tri. Imported material to be used as structural fill, should be clean, liee-draining granular ,Oils containing no more than 5 percent by weight finer'than the No. 200 sieve based on the fraction ofthe material passing No. 4 sieve, Structural fill should be placed in lilts no more Ehaii 10 inches thick in its loose state, with each lift compacted to at least 92% of the. niaxitnuni dna density determined by ASTM D1557 (Modi 1.ied Proctor Method). Setback of Block Wall Since the failed rockery wall is to be left in place wherever.. possible. The alignment of the proposed concrete block wall will have to beset set at about 8 feet from the toe of the rockery wall in order to accommodate the geogrid, mesh to be embedded in the wall backfill. Tlus will put the wall tip to about 18 feet from the edge of the existing paved driveway and Nvil I he about 10 feet LIU & ASSOCIATES, INC. September 28, 2011 Precast ('oncrete Block Nall - Stuart Residence l.kAJob No. 11-457 Pa'e 10 from the top of slope at 406,' or more ,rade west of the exi�ting concrete block mall. The residence site, including the bench area west of failed rockery wall on which the proposed block wall is to be built, is underlain by very -dense fresh till soil at shallovv depth underlain by dense to veru -dense, advance out,,%�aslt soil. Both types of soils are of hiJi shear strength and arc highly resistant against slope failures. Therefore, it is our opinion that the 10 feet setback front the top of the adjacent steep slope of 40% or more gradeshould be adequate to maintain long-term stability of the proposed blocs: wall. STABILITY ANALYSES AND DESIGN OF BLOCK WALL SRWall version 3.22 computer program, developed by 'National Concrete Masonry Association, was used in our stability analyses of the precait concrete block kvall. The results of the analyses are presented under APPENDIX attached to this report. Our design of the precast concrete block wall is shown onthe following plates attached hereto: Plate 3 Block Wall l:avout Plan Plate 4 — Concrete Block Wall Typical Section Plate 5 - Spreader:Pipe SystctYl Plate 6 - Geogrid Mesh Schedule Plate 7, Silt Fence Detail Plate R — General Notes. ,and Plate 9 General Notes CONSTRUCTION RECOMMENDATIONS Site Preparation and General {.Trading Vegetation within construction limits of the block wall andwall backfill should be cleared and roots thoroughly grubbed. Topsoil and surficial Irak: soils--vithin the block .wall and wall LIU & ASSOCIATES, INC. September 29,` 0l1 Precast Concrete Block Lull — Stuart Residence I.&A Job No. 11-057 f aae I 1 backfill should be stripped down it) dcnsc undisturbed till soil. Over -excavation t1cmn to firm bearing soil should be backfilled with compacted structural fill. Temporary Erosion Control A silt fiance should be erected along: the do-,knhili wideof the construction area, as required, to keep sediment.frons beim vNashed dawn to adjacent properties. The detail of the silt fence is presented on Plate 7. The bottom of the filter fabric should be anchored in a trench filled with gravel. A layer of clean quam., spalls should be. placed over areas of frequent Construction traffic, as required, it) protect subgrade soil from disturbance by construction traffic. Areas of frequent construction traffic should be_protected with a laver of 2 -to -4 -inch rack spalls. Excavated spoil sail unsuitable: for use as structural rill should be hauled out ol'the site as soon as possible. Spoil soil to be temporary stockpiled on site and exposed ground should be cohered with plastic tarp and serure,l} glited down with s ndba&ls'for erosion protection. Keyway Trench The kcy%A,,av trench liar the block wall should be cut into native, undisturbed, firm bearing soil, capable of rendering an allowablebearing pressure of at least 3,C}tltl psf. The sail exposed at bottom of the keykv'a)F trench should be compacted to a non -yielding state witha vibratory compactor. Over -excavation of unsuitable weak soils at bottom of keyway trench should bc backrilled with compacted structural fill. A minimum ()-inch layer of 7i8-ianch-minus crushed rock leveling base, compacted to .e_ non -yielding state, should be placed over the subgrade soil to support the black wall. The base: -course blocks are:46N placed on this crushed rock base with an embedment at least 8 inches below the adjacent rinish grade in front of the block wall. The precast concrete blocks shouid be stacked tightly against one another. UIU & ASSOCIATES, INC. September 28. 2011 Precast Concrete Block Wall - Stuart Residence I.&A Job No. I I-Oi7 Page 12 Geogrid Mesh Each layer of geogrid mesh should be laid on level backfill surflace, with one end securely. anchored between tNvorows of blocks. stretched tight , mid.the other.end staked down prior to the placement of the next lilt of wall. backfill.. Overlaps of geogrid mesh in the direction of the wall alignment should he at least 12 inches, overlaps in the dirce tion perpendicular, to 'the wall aliont'nent should not be allowed. Permanent Erosion Control Areas disturbed and devoid of vegetation by construction activities should be seeded, vegetated and landscaped as soon as possible for erosion protection. The seeded and vegetated areas should be covered with a layer of clear plastic tarp, as required, until the vegetation is 1`411y established. CLOSURE We are pleased to be of service to you on.this project. Pleaseletl free to call us if you have any questions regardingC11 this report or need further consultation. Yours very truly, LIT-T-,4.SSOCTATES. INC, .1. S, (Julian) Liu, N.L. Consulting Geotechnical Engineer Attachments: 1. Plates I through 9 2. APPENDIX - Precast Concrete Block, Wall Stab.itity Analyses LIU & ASSOCIATES, INC. OIL Y4RSjj Ec LHJ & ASSOCIATES, INC. Geotechnical Enoineering - Engineering Geology - Earth. Science VICINITY MAP STUART RESIDENCE 1109. - 12TH AVENUE NORTH EDMONDS, WASHINGTON 125:7 Q—DATE 9/17/20ILLI ST -,L- 3;t WTH ST 5.- aF sw !w ku 9t 7 m -V,-2-A-, -I —j 4 W47*.57 * vz* #NP M 001i'm, . LIU & ASSOMTES, INC. Geotechnical Engineering - Engineering Geology - Earth Science ugn -7 _rl w 'rg.af sm.w 0 SITE PLAN STUART RESIDENCE 1109 - 12TH AVENUE NORTH EDMONDS, WASHINGTON 4 I 5n a '� 5 4 T3 /jar + i+A* J i ter �?v31t38u I s ti$ o U,I ry. N w ! 0 0� O¢z 1 110 �tC ,/S�S}ted �'�r�%t V t�g,.°� rN ( 1./��a^�l Y� ` �- s3 s. i 44 'zi aNniv8 C3C7om ..•.— pts 1 ag+ AVAk3A18a 313K)KI031 � a 06 1 1 V z E o a� \\ 1 ( �, 4 E 4L. a + N GY08 3iVAldd 'Z -2, LL 1 by (1 1 ref%. GO CONCRETE BLOCK WALL LAYOUT PLAN LIU & ASSOCIATES, INC. STUART RESIDENCE _ 1109 12TH AVENUE NORTH Geotechnical Engineering, Engineering Geology :• Earth Science EDMONDS, WASHINGTON 4 j nt 'tial >�a Ir- LL LIL 3 ° 0` Z d3 >3 -Z LL t -0, mo TYPICAL SECTION - CONCRETE BLOCK WALL LIU & ASSOCIATES, INC. STUART RESIDENCE 1109 - 12TH AVENUE NORTH Gootechnica{ Engineering • Engineering Geo EDMOND$, WASHINGTON 9 n8 JY 'Earth Silence _ JOB NO.. 11-057 1 DATE 9/2812011 I PLATE 4 - peJ� 'triNT"L(t� Il?'14 U -Fro L7 mKF. PVO � PtPe .. ..........._.. -- /fes, .: - . ..: ^ .. _ (�ALVAt4it Fp - 2-5 6. MIN. - II Q .?. 4 T614TL! E: 2",p PILE. .04 �♦ /0 1 TTopSPREADER PIPE SYSTEM LIU & ASSOCIATES, INC, STUART RESIDENCE 1109 - 12TH AVENUE NORTH Geotechnical Engineering ^Engineering Geology • Earth Science EDMONDS, WASHINGTON JOB NO. __L1 -057 1 DATE 9118/2011 1 PLATE 5 Q) , D t i i i 1 t i ' Ei O — tri �7 ® iN�UU40 .. - COO ci - 0 NCV U J z 1 lL uU.. V (500 N04 . i)a C6liw UJ O LL It 3 N N N N Q 'O O U 0 ;� U Q U O U � ZCC Cr 0 . 0 l. LL ttiO ! OZ OoQ�di to Z tl) S iLOt�t NN C) C> N w S 'CW�Futo ?,r UQoQCOU Loin o Q M C0 it ��'tCQ� 4) o a000 �v- �Co O IL LL !LtitL m NNNNNM Ci OJ m C) 0 U Q U Fu Q tq U Q 0 U m Q 00 ` rVdr!VY -j C9 � CQ�P'-�o? �m OOL1 (:6 u- LL 1 NC)N N�ON�tUAURU-iiS OOOt0Lr) MM OGOQt Lii! C)Cco )v Q OOOO ILL U. llLt: G? NNC1iMC3 CQt0f "to dUQVQUOUdUOCO@O(0U-)EC')fp Z �t Q ��ON�t_U �NCt'��i�U�Vi ~�aO�rs �MtW�arrO tLl. L�N�N'S�O€>iL<��U✓_t3 LNO�4Oo��U��NCIf QLL �Jr-+t��c��Ji�o��.•-�i�?sr.Je�a-.9s!'.-} *~�ONry.O�n4z�tvOC�rCO�ht1`bD).�' -jvDt V1ZT- tiCG�iQti? It Q�Q�tOl� (D GEOGRID MESH SCHEDULE LIU & ASSOCIATES, INC. STUART RESIDENCE 1109 - 12TH AVENUE NORTH _o Geotechnical Engineering - Engineering Geology + Earth Science EDMCNDS, WASHINGTON JOB NO. 11-057 DATE 9118/2011 PLATE 8 Z (D Z r- FILTER FABRIC_. SECURZ—D a0 14 Gk WIRE' FAB,R[C EQUAL 2' X 2' WOOD OR COUIVALENT 9�� Vu PLACE 3/4'-1,5, WASHED GRAVEL IN THE TRENCH AND DIN, BOTH SIDES OF Fit -TER FABRiC,FCNCE ON THE SURFACE, EXTIM M OF FILTER FAIRP-1C H,4TERIAL IN _LABRN 6 LiT OR WIPE RINGS TO ATI'ACH F IC TO [?'IRE. 13 9 11L ru r I Til SUPPORT Fif-TER FAM!C. iyjZ �Z T------ 77' 2' X 2' W'D D PDS'l 'j EQU'V41-EINT —PL -CE CD�ITRACTOR/D VEL""PER Sll(,'�L MAIN'TAIN AND RE STRAW BALES TO 1IN'SURE PRDPFR ERDSION CONTRDL, .CITY INSPECTION REOUIR�CD ON' ALL EROSION CONTRLbL hJETFjoijl- OTHER WORK CAN BEGONE SILT FENCE DETAIL LIU & ASSOCIATES, INC. STUART RESIDENCE 1109 - 12TH AVENUE NORTH Geotechnical Engineering - Engineoring Geology - Earth S6onco EDMONDS, WASHINGTON JOB NO- 11w057 I [BATF 911812011 I RATE 7 GENERAL NOTES 1. SCOPE OF WORK Contractor shall provide material, equipment, labor and tools to complete the precast concrete block wall in accordance with the. alignment. Iines and grades shown on the drawings by Liu 9 Associates, Inc. 2. SITE CONDITIONS Contractor shall visit site and familiarize himself with she conditions, and shall verify existing grades, dimensions and elevations in the field. Contractor shall report any discrepancy from the design drawings to Engineer (Liu & Associates, Inc.) before proceeding with wall construction. Contractor .shall exercise extreme care not to damage any underground utilities, existing structures, driveway, house, landscape, etc. Damage to the above shall be repaired and restored to their original conditions or better at Contractor's expense. 3. MATERIAL 3.1 Precast Concrete Stocks for block wall shall be of Keystone Standard blocks. They shall be dry cast - concrete blocks, in accordance with WSDOT 6-13:3(4), Items 3. and 4, with a min, 28 -day compressive strength of 4,000 psi. Water absorption of the blocks shall not.exceed 8% and shall not exceed 1% above the water absorption content of the tot of. blocks produced and successfully tested for the freeze -thaw test specified in WSOOT Specifications 6-13.3(4), Item 4. Certificates of compressive strength and water absorption content tests of each lot of',precast concrete blocks shall be submitted to Engineer (Liu & Associates, Inc.) for approval at least two weeks before start of wail construction. Finish and appearance of precast concrete blocks shall be. in accordance with ASTM Standards C1372. Exposed faces shall be free of.chips, cracks or other imperfections. The color of blocks shall be concrete gray. 3.2 Crushed Rock Leveling Base and Qrninaga Blanket shall consist of clean, durable, free -draining, 718 - inch crashed rock. 3.3 Non -Woven Filter Fabric Liner shall be 140NS by Mirafi Inc, or approved equal. 3.4 Structural Fill for block wall backfill shall be clean granular soil free of organics, debris, and other deleterious substances and with particles no larger than 3 inches. 3.5 Wall Drain Line and Spreader Pine shall be of 6 -inch diameter, rigid, perforated, watertight joints and wrapped in a non -woven filter fabric sock.. 3.6 Wall Drain Line shall be of 4 -inch diameter, rigid, unperforated, PVC pipes. a 3.7 Geogrid Mesh shalt be as specified on the drawings or approved equal. 3.8 Spreader Pipe Su000rts shalt be of A35, Schedule 80,. galvanized, steel pipes di required embedment with a jackhammer. 3.9 U -bolts and Nuts shall be galvanized for long-term corrasion protection. 4. TEMPORARY/PERMANENT EROSION MITIGATION 4.1 42 82 III—.. 7117/ Protect and maintain vegetation outside of construction area, Install a silt fence along the downhill side of construction area. Protect exposed areas of.frequent construction traffic with a minimum 6 -inch layer of 2 -to -4 -inch rock spall, as required. Cover temporary spoil soil stockpile with plastic tarp securely weighted down with sand bags. Disturbed areas devoid of vegetation cover shall be re -seeded, re -vegetated and landscaped as soon as possible for erosion protection. Seed mixture shall consist of 40% Kentucky Bluegrass, 30% Creeping Red Fescue and 30% Perennial Rye. Seeded area shall be covered with clear plastic sheets unfil.vegetation is fully established. LIU & ASSOCIATES, INC. Geotechnical Engineering • Engineering Geology • Earth Science GENERAL NOTES - CONCRETE BLOCK WALL STUART RESIDENCE 1109 - 12TH AVENUE NORTH EDMONDS,. WASHINGTON 1.1 (60<10060 F=-1?at4 Pi --p." e— S) 5. INSTALLATION 5.1 Stones of failed rockery shall be left in glace wherever possible. Voids between stones shall be filled with 7/8 -inch crushed rock and densified to a non -yielding state with a concrete vibrator. 5.2 Contractor shall be responsible for cut bank stability. Keyway trench for block wall shall be excavated down to firm, undisturbed, native soil capable of rendering an allowable bearing pressure of 3,000 psf. Over -excavation to remove looset weak soils shall be backfilled with compacted structural fill. Exposed soil at bottom of keyway trench shall be compacted to a non -yielding state with a vibratory compactor prior to laying the crushed rock base course. 5.3 Bottom of keyway trench and wall drain line shall have sufficient slope (0.5% minimum) to direct water into the drain line and to generate flow by gravity. The. wall drain line shall be tightlined to discharge into the spread pipe system. 5.4 Concrete blocks shall be tightly stacked with the rows of blocks inter -connected with Teflon pins. The cores of blocks shall be filled with 7/8 -in crushed rock and tamped to an unyielding state, 5-5 Structural fill, crushed rock base and vertical drainage blanket shall be placed in lifts no more than 10 inches in loose state, with each lift compacted to at least 920 of the maximum dry density determined by ASTM D1557 (Modified Proctor method). 5.6 Each layer of geogrid mesh shall be laid on level ground, anchored between rows of blocks with Teflon pins, stretched tight, and staked down, prier to placing the next lift of structural fill. Overlaps for geoghd mesh shall be at least 12 inches in the direction of wail alignment, and shall not be allowed in the direction perpendicular to wall alignment. 5.7 Disturbed ground shall be seeded and vegetated as soon As possible, and shall be covered with clear plastic sheets as required for erosion protection. 5.8 Construction of concrete block wall shall be inspected by a geotechnical engineer. Placement and in- situ density tests of structural fill shall be monitored and tested by .a geotechnical engineering technician. Inspection fees shall be paid for by the Owner, but Contractor shall provide timely notice to inspection agency for required construction inspection and testing. 5.9 Contractor shall remove debris and cleanup site after compietion of work. 6. INDEMNIFICATION 6.1 Contractor shat{ be solely responsible 6r construction safety .and his/her methods, techniques, sequences or procedures used for the construction, and shall take necessary measure to maintain. stability of cut banks during construction to prevent bodily injury or property damages. 6.2 Contractor shall indemnify and save harmless the Owner.;and Engineer from and agai rtla e cost and liability for injury or death to persons and from damage. to property cau Contractor, his agents, employees or subcontractors,ai =N,_14%1<_*-'W rx0.'RG9 '71)7i GENERAL.NOTES - CONCRETE BLOCK WALL LIU & ASSOCIATES, INC. STUART RESIDENCE 1109 -12TH AVENUE NORTH ceot�f,ntcal 6ng;rteering Engineering Geology Earth Seitsncs EDMONDS, WASHINGTON