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HomeMy WebLinkAboutTract Map 3883 Lot 101 Hydrology & Hydraulics Analysis I I I I I- I I I I I I I I I I I I I I v )'[)(YI- o/dfr< -a~f'f3/ :~I 1053t)~ HYDROLOGY AND HYDRAULICS ANALYSIS AND RETAINING WALLS STRUCTURAL ANALYSIS PREPARED FOR: THE LOWRY RESIDENCE ---;7 PREPARED BY: ALATORRE & ASSOCIATES CIVIL & STRUCTURAL ENGINEERING 1520 SAN JACINTO AVE., SUITE I SAN JACINTO, CA 92583-5152 PHONE: (909) 487-1722 APRIL 2004 Lf~ g -oy '-. I I I I I I I' I~ I~ I I> r I" r I ~ RIVERSIDE co. N ')11 .". en ~- , co ;',\ VI' lIOI'\l ~ Q "'MOW.GA " ~f;i::::\ "'.".-, '" 5: 0, :;~"~:",,- "~ \ ~ , ", :1';;; ~ ..:- (, i ~~ ~ '. r; ~ "!<bo. ~ ~ l ,~ """ ",.r",.. ~ ,J:_:'~5'~~'.\" ",;.,;,..." (/& rtIj;;OJ ~l '. >, " "":':>;', "'''''\ ,,~-, . '" ";;. ,,: ....,.. " < " , . "i ':? -,,,.,, elL '. , :-. .~'\ .,~,~ /' <~:~~:>~~. \r; , , \l.\\~ ' 'l-I-v.1J' .,', . '"."", Illi t.'- ;, , , -." ~ .f , ,'''' J~\"1/4~ '" ;% < ;:J,;,<::; "i'<''' .\;';\:O;- Ct' " .,--'",,< " , " '. 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" :1 , 1 ~ J "<"I; "-. , ~-~" ~ _;'if \., . ,., ;,"~_ r :- j ~, j-. -. - I , '0, '" I ~j I 0:' " ,.r ;:: , , , , .-.~_. \,'-' , , _._~_.. "':., ~.,"... -l fl, , .'..... " ~J;: '. .'-; "-' , -. , -vtl ::?- IhI.9A 2- I I I I I I I I I I I I I I I I I I I I Table of Contents LOWTy-Hydra_RO,gpw Tuesday, Mar 162004, 849 PM Hydraflow Hydrographs by Intelisolve 2 - Year Summary Report,..................,.....,..,.....,..,..,.., ...,....., ........, .....,...........,..,...,.....,...........,..,. 1 Hydrograph Reports ...,.................................................................................................... 2 10 - Year Summary Report ................,.....,..,..,..,... ....., .........,..,........,... ...,.....,..,..,..,..,......,..,..,......... 2 Hydrograph Reports ........................,...............................................,................,.....,...,.... 3 100 - Year Summary Report .. ,... ,.. ".,.. ,.. ,..,.. "..,.. ". ,., ",.". ". ",.,.. ". .,. ." ." .."." ..,.." ." ..,.." ..' ..'..,..., ..".,. 3 Hydrograph Reports, ." .".". "." .". ". ." .."", '" ." .." ."..,..,..,..., .., .." .., ..,..., .., ..,. ." .." .,.." ."..,.. 4 <;, ~YdrograPh Summary Report 3 I Hyd. Hydrograph Peak Time Time to Volume Inflow Maximum Maximum Hydrograph No. type flow Interval peak hyd(s) elevation storage description I (origin) (cIs) (min) (mini (cuft) (ft) (cuft) 1 Rational 1.47 1 14 1,236 hn ___n. ___n_ Area 1 I 2 Rational 0,78 1 14 654 ---- ~--_.- ------ Area 2 3 Combine 2.25 1 14 1,890 1,2 MU.U __u__ Point B I 4 Reach 2,01 1 16 1,915 3 ------ ------ lineA to B 5 Rational 2,38 1 12 1,715 --- nn__ ----- Area 3 6 Rational 1.45 1 12 1,047 ---- _UU. MU__ Area 4 I 7 Combine 5,32 1 12 4,677 4,5,6 ----- ------ Point C 8 Reach 3,62 1 13 2,793 7 __u__ n____ UneBtoC I 9 Rational 3,31 1 13 2,584 ---- ----- u____ AreaS 10 Rational 3,46 1 12 2,494 _u_ _n___ u___ Area 6 I 11 Combine 10,11 1 13 7,872 8,9,10 d____ _._u_ Point CC 12 Reach 9,76 1 14 7,958 11 ----- ---- Line C to CC I 13 Rational 4,08 1 12 2,940 _u_ _n___ ------ Area 7 14 Rational 3,06 1 12 2,205 ---- ------ u____ Area8 I 15 Combine 15,80 1 13 13,103 12,13,14 ------ u____ Point 0 16 Reach 15.59 1 15 13,241 15 ------ ----- Line CC to D 17 Rational 1.44 1 10 861 --- __n__ ------ Area 9 I 18 Rational 2,40 1 10 1,442 ---- ------ u____ Area 10 19 Combine 17,69 1 14 15,545 16,17,18 .u___ n____ 'Point E I 20 Reach 17,36 1 16 15.739 19 .hd_ __n__ Linre D to E I I I I I I Lowry_Hydra_RO.gpw Return Period: 100 Year Tuesday, Mar 16 2004,8:49 PM 1 I Hydraflow Hydrographs by lntelisolve tYdrOgraPh Summary Report 2 [HYd. Hydrograph Peak Time Time to Volume Inflow Maximum Maximum Hydrograph No. type flow interval peak hyd(s) elevation storage description 11 (origin) (cIs) (min) (min) (cuft) (ft) (cuft) Rational 0,94 1 14 788 ---- ____h -----. Area 1 I: Rational 0,50 1 14 417 _h_ _.un dnn Area 2 Combine 1.43 1 14 1,205 1,2 ------ u____ Point B ,: Reach 1.26 1 16 1,222 3 __nn __n__ LineAtoS Rational 1,52 1 12 1,094 ---- __un ------ Area 3 RatIonal 0,93 1 12 668 --- ---- nun Area 4 17 Combine 3,37 1 12 2,984 4,5,6 ___n_ uun Point C 8 Reach 2,28 1 13 1,783 7 nun __u__ UneBloC 19 Rational 2,11 1 13 1,648 ---- n__n ------ AreaS 10 Rational 2,21 1 12 1,591 ---- __u__ ------ Area 6 111 Combine 6.42 1 13 5,022 8,9,10 ----- __n__ Point CC 12 Reach 6,14 1 14 5,081 11 ou.n ------ Une C to CC '13 Rational 2,60 1 12 1,875 Un nun ------ Area 7 14 Rational 1.95 1 12 1,406 ---- ------ ------ Area 8 15 Combine 9,97 1 13 8,362 12,13,14 nnn n____ Point 0 t:: Reach 9,80 1 15 8,457 15 ___n_ ______ Line cc to 0 Rational 0,92 1 10 549 --- __n__ ___on Area 9 Rational 1.53 1 10 920 ---- ------ _uo_. Area 10 19 Combine 11.09 1 14 9,927 16,17,18 n____ ____n Point E 120 Reach 10,85 1 16 10,062 19 ------ nun linre 0 to E 1 I I I I tLoWrY_HYdra_RO,gpW Return Period: 10 Year Tuesday, Mar 16 2004, 8:48 PM ~ I Hydraflow Hydrographs by Intelisolve tYdrograPh Summary Report 1 I[HYd. Hydrograph Peak Time Tirneto Volume Inflow Maximum Maximum Hydrograph I No, type flow interval peak hyd(s) elevation storage description It1 (origin) (cfs) (min) (min) (cuft) (ft) (cuft) Rational 0,52 1 14 438 ---- ------ ~----- Area 1 II: Rational 0,28 1 14 232 n__ _n___ u___ Area 2 Combine 0,80 1 14 670 1,2 _h___ __u__ Point B II: Reach 0,68 1 17 680 3 ----~- -.-._- Line A to B Rational 0,84 1 12 608 ---- ------ ----- Area 3 II: Rational 0,52 1 12 371 ---- ------ ------ Area 4 Combine 1.85 1 12 1,660 4,5,6 ------ ------ Point C 8 Reach 1,25 1 14 992 7 un__ ------ UneBtoC Rational 1,17 1 13 916 --- ------ ___n_ AreaS Rational 1,23 1 12 885 ---- ----- _n___ Area 6 Combine 3,54 1 13 2,793 8,9,10 ----- ------ Point CC Reach 3,35 1 15 2,830 11 n___ ---- Line C to CC r Rational 1.45 1 12 1,043 n__ ___h_ __n__ Area 7 14 Rational 1.09 1 12 782 ---- _u___ ----- AreaS f Combine 5,48 1 13 4,654 12,13.14 __h__ ------ Point 0 16 Reach 5,32 1 15 4,713 15 ------ ------ Line cc to 0 17 Rational 0,51 1 10 305 _n_ n__n ------ Area 9 118 Rational 0,85 1 10 512 ---- __nu _n___ Area 10 19 Combine 6,00 1 15 5,530 16,17,18 ._---. u..__ Point E 120 Reach 5,82 1 17 5,613 19 ___n_ ------ Linre 0 to E 1 I I I I tLowrLHYdra_Ro.9pW Return Period: 2 Year Tuesday, Mar 16 2004,8:48 PM I q Hydraflow Hydrographs by Intelisolve I I I I I I I I I I I I I I I I I I I ,~ , <:> d ':"~ ~cr. ~-:;, \ \ " ~ l ,,:: ~ ~\~~ A - ~~ -& \\J\ t>.l." ~, \-' ,",'" "'" .<., ~,i , /;j1~@J '" ,. <I:. - 'o:t II r-J \\ ~ -:: ~ '" - / /- ~-" <tJ~:;..~ ..ct ':t"" <. 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N :J 0 _. 0' 0 CD ::1::1 0 ~ ~ I~ '< '< 0 ~ o . - ~ ~, ~ \ ~ ~ ~ l' ~ s j ~ , I , 8 w <e I I I I I I I I I I I I I I I I I I I #O@O,in @TDe #O@O,in @Heel 8,Ooo05in Mas wi #5 @ 32.in ole Solid Grout, 4'-0" 2314" 3" 3" , . .: I =:I 1'-0" I ~ I 3" I -----I~ --~-------;;.~ Designer select all horiz. reinf. 2'-41/4" 6" Z-O" 101/Z' Z-10 1/Z' 4'-0" \~ I I Alatorre & Associates Civil Engineers 1520 S. San Jacinto Ave. Ste #1 San Jacinto, CA 92583 Fax:909.o54-0681 PH:909-487-1722 Title: Lowry Res. Job # Dsgnr: Ron Cote, Desgnr, A Date: 2:09PM, 6 APR 04 Description: Retaining walls as part of the grading plan at the rear yard of the lot Scope: Retaining walls and as noted I Re,' 560100 User \(w..oe0902 Vel 5 61, 25-Qct.2002 (c)1983.2oo2 ENERCAlC Engineering Software Page 1 c Idocuments and settlngs\alex\my documents~ Cantilevered Retaining Wall Design I I I I I I I I I I I I I I I I Description Portion of the wall for H=4'-O" Max Criteria Retained Height Wall height above soil Slope Behind Wall Height of Soil over Toe Soil Density = 4,OOft O,ooft 0,00: 1 3.00 in 110,00 pcr Wind on Stem = 0,0 psI l Surcharge LO~dS Surcharge Over Heel 0.0 psf Used To Resist Sliding & Overturning Surcharge Over Toe = 0.0 psf Used for Sliding & Overturning l Axial LoadAprliedtoSt~m Axial Dead Load = 0.0 Ibs Axial Live Load 0.0 Ibs Axial Load Eccentricity 0.0 in L Design Summary Total Bearing Load ..resultant ecc. = 1,091 Ibs 0.42 in Soil Pressure @ Toe 409 pst OK Soil Pressure @ Heel 353 psf OK Allowable = 1,500 pst Soil Pressure Less Than Allowable ACI Factored @ Toe 509 pst ACI Factored @ Heel 440 psf Footing Shear @ Toe 4,6 psi OK Footing Shear @ Heel::;: 3.6 psi OK Allowable 85,0 psi Wall Stability Ratios Overturning ::;: 3.25 OK Sliding = 1,58 OK Sliding Calcs (Vertical Component Used) Lateral Sliding Force = 411,91bs less 100% Passive Force = 325.5 Ibs less 100% Friction Force = 327.4lbs Added Force Req'd = 0,0 Ibs OK ,...for 1,5: 1 Stability 0,0 Ibs OK : Footing Design Results ~ 509 1,154 583 571 4,64 85,00 None Spec'd None Spec'd None Spec'd Ii ~ 440 psf Oft-# 96 ft-# 96 ft-# 3.62 psi 85,00 psi Factored Pressure Mu' : Upward Mu' : Downward Mu: Design Actual1-Way Shear Allow 1-Way Shear Toe Reinforcing Heel Reinforcing Key Reinforcing = = Soil Data '7'~";:,~;~. ,.,...~;,;~,.,.,.: '"' t Allow Soli Bearing = 1,500,0 psf Equivalent Fluid Pressure Method Heel Active Pressure ::;: Toe Active Pressure Passive Pressure Water height over heel FootingllSoil Friction Soli height to ignore for passive pressure = 32,0 0,0 150,0 0,0 ft 0,300 = 0,00 in " I Lat~,r~IL~~d Applied~o S,tem Lateral Load 0,0 #/ft ,..Heightto Top 0,00 ft ...Height to Bottom 0.00 ft I Stem Construction I' TopStem . ..' Slem OK ft= 0,00 Masonry 8,00 # 5 32,00 Edge Design height Walt Material Above "Ht" Thickness Rebar Size Rebar Spacing Rebar Placed at Design Data fb/F B + fa/Fa Total Force@ Section Moment....Actual Moment.....Allowable Shear....,Actual Shear.....Allowable Bar Develop ABOVE HI. Bar Lap/Hook BELOW HI. Wall Weight Rebar Depth 'd' Masonry Data fm Fs Solid Grouting Special Inspection Modular Ratio 'n' Short Term Factor Equiv. Solid Thick. Masonry Block Type = Concrete Data fc Fy = = J I Footing ,Slrengths & Dimensions fc = 2,500 psi Fy = 60,000 psi Min. As % 0.0014 Toe Width 2,00 ft Heel Width 0,87 Total Footing Width = 2,81 Footing Thickness ::;: 12.00 in Key Width 6.00 in Key Depth = 10,00 in Key Distance from Toe::;: 2.35 ft Cover@ Top = 3,00 in @ Btm,= 3,00 in I Adjacent Footing Load ;;;;.:;,.:....j;;..-...,. <..,;:.".,.;.:'..".....0.-: Adjacent Footing Load = Footing Width ::;: Eccentricity Wall to Ftg CL Dist Footing Type Base Above/Below Soli at Back 01 Wall 850,0 100 2.00 ft 0.00 in 9,50 ft Une Load 0,0 ft = 0.419 Ibs = 260,8 ft-# = 344.4 = 822,7 psi::;: 4,5 psi::;: 19.4 in ::;: 30,00 in = 6,00 = 84,0 in = 5,25 psi = psi::;: 1,500 24,000 Yes = No = 25,78 = 1,000 in = 7.60 Normal Weight psi = psi = Other Acceptable Sizes & Spacings Toe: #4@ 17,00 in, #5@ 26,25 in, #6@ 37,00 in, #7@ 48,25 in, #8@ 48,25 in, #9@ 4 Heel: Not req'd, Mu < S * Fr Key: #4@ 16,00 in, #5@ 24,75 In, #6@ 35, \ 'S'" I I I I I I I I I I I I I I I I I I I Alatorre & Associates Civil Engineers 1520 S. San Jacinto Ave. Ste #1 San Jacinto, CA 92583 Fax:909-654-6681 PH:909-487-1722 I R",,, 560100 User KW-060902 Ver 5 5 1 25.0cl.2002 (c)1883-2oo2 EI'lERCALC Englr,eering SoftlNare Title: Lowry Res. Job # Dsgnr: Ron Cote, Desgnr. A Date: 2:09PM. 6 A.PR 04 Description: Retaining walls as part of the grading plan at the rear yard of the lot Scope: Retaining walls and as noted Cantilevered Retaining Wall Design Page 2 c \documents and settmgs\aleX\my documentsl) Description Portion of the wall for H=4'-O" Max Summary of O\lerturning & Resisting Forces & Moments .....OVERTURNING...., Force Distance Moment Ibs ft ft-# 400,0 1,67 666,7 .....RESISTING..... Force Distance Ibs ft 88,1 2.77 Moment ft-# 243,9 Item Heel Active Pressure Toe Active Pressure Surcharge Over Toe Adjacent Footing Load Added Lateral Load Load @ Stem Above Soil = Seismic Load Soil Over Heel Sloped Soil Over Heel Surcharge Over Heel Adjacent Footing Load Axial Dead Load on Stem = Soil Over Toe Surcharge Over Toe Stem Weight(s) Earth @ Stem Transitions = Footing Weight ; Key Weight Vert. Component 0,00 55,0 1.00 55,0 336.0 2,33 784,0 430,0 1,43 616,5 62,5 2,60 162,5 119,7 2,87 343.2 1,091.4 Ibs R.M.; 2.205,0 ; ; 11,9 1,01 12,0 ; ; ; 411,9 a.T.M. 678,7 Total Resisting/Overturning Ratio Vertical Loads used for Soil Pressure = 3.25 1,091.4 Ibs Vertical component of active pressure used for soil pressure Total = ,t;. I I I I I I I I I I I I I I I I I I I 8.00005in Mas wi #5@32.in ole Solid Groul, 12.0005in Mas wi #5 @ 32.in ole Solid Grout, 3'" ,- , -- ----- #O@O,in @Toe Designer select #O@O.in all horiz. reinf. @Heel . ~ I L. I 3'-0" 2'-6" ".....~,----'---.- 23/4" 4'-8" -.r I I I I 1 6'.0" 6'.0" , I 3" 1'-4" I t . . ~ 1'.0" . 3" -+ .1'-6" 1'-0" l~~,~ , 4'.0" \1 I I I Alatorre & Associates Civil Engineers 1520 S. San Jacinto Ave. Ste #1 San Jacinto, CA 92583 Fax:909.$54.a681 PH:909-487-1722 Re" 560100 User KW-060902, Ver 5 61, 25-0ct-2002 (c)1983-2002 ENERCAlC Engirleering Softw"are Title: Lowry Res, Job # Dsgnr: Ron Cole, Desgnr, A Date: 2:09PM, 6 APR 04 Description: Retaining walls as part of the grading plan at the rear yard ofthe lot Scope: Retaining walls and as noted Description Cantilevered Retaining Wall Design Page 1 c:\documentsarlds.ettlngs\aleximydocuments~ I I I I I I I I I I I I I I I I Portion of the wall for H=6'-Q" Max Criteria Retained Height Wall height above soil :: Slope Behind Wall Height of Soil over Toe Soil Density 6,OOft O,OOft 0,00: 1 3,00 in 110,00 pet Wind on Stem :: 0,0 psf i Surcharge Loads Surcharge Over Heel:: 0.0 psf Used To Resist Sliding & Overturning Surcharge Over Toe :: 0.0 psf Used for Sliding & Overturning I A~ial Load Af3f3ri~d toS1em, Axial Dead Load O.Olbs Axial Live Load 0.0 Ibs Axial Load Eccentricity:: 0.0 in ~ Design Summary ..~ ".-- '-'. Total Bearing Load ...resultant ecc. 2,1991bs 1.03 in Soil Pressure @ Toe 479 pst OK Soil Pressure @ Heel = 620 psf OK Allowable : 1 ,500 psI Soil Pressure Less Than Allowable ACI Factored @ Toe 547 psf ACI Factored @ Heel 708 psI Footing Shear @ Toe = 8.5 psi OK Footing Shear @ Heel 9,5 psi OK Allowable 93,' psi Wall Stability Ratios Overturning = 3.44 OK Sliding : 1,52 OK Sliding Calcs (Vertical Component Used) Lateral Sliding Force : 806,71bs less 100% Passive Force = 567.21bs less 100% Friction Force = 659.6 Ibs Added Force Req'd 0,0 Ibs OK . ..for 1.5 : 1 Stability = 0.0 lbs OK Footing Design Results ..'1, Factored Pressure Mu' : Upward Mu' : Downward Mu: Design Actual 1-Way Shear Allow 1-Way Shear Toe Reinforcing Heel Reinforcing Key Reinforcing ~ 547 2,208 940 1,268 8,55 93,1' None Spec'd = None Spec'd None Spec'd ~ 708 pst Oft-# 518 ft-# 518 ft-# 9.47 psi 93,11 psi : : : Soil Data ,.,,,:-:;,.;l't'::'.:'C > ,.,. ':.",.,. Allow Soil Bearing = 1 ,500.0 psf Equivalent Fluid Pressure Method Heel Active Pressure Toe Active Pressure Passive Pressure Water height over heel FootingllSoil Friction Soil height to ignore for passive pressure : 32,0 0,0 150,0 0,0 ft 0,300 : 0,00 in "" I L~t~ral Loa~ ~pplied to, Ste~ Lateral Load 0,0 #/ft ..,Height to Top 0,00 ft ..,Height to Bottom 0,00 ft I, I Slem Construction '. ..."..... Design height Wall Material Above "Ht" Thickness Rebar Size Rebar Spacing Rebar Placed at Design Data fb/FB + fa/Fa : Total Force @ Section Ibs = Moment....Actual ft-# = Moment.....Allowable ft-# = Shear.....Actual psi = Shear.....Allowable psi = Bar Develop ABOVE HI. in : Bar Lap/Hook BELOW HI. in: Wall Weight psI: Rebar Depth 'd' in = Masonry Data rm Fs Solid Grouting Special Inspection Modular Ratio 'n' Short Term Factor Equiv. Solid Thick. Masonry Block Type = Concrete Data fc Fy I" Top Stem .-.! Stem OK ft: 1,33 Masonry 8,00 # 5 32,00 Edge : 1,500 24,000 Yes No 25,78 = 1.000 in = 7.60 Normal Weight psi = psi = : [ Footing Strengths & Dimensions fc : 3,000 psi Min. As % Toe Width Heel Width Total Footing Width Footing Thickness Fy 60,000 psi 0,0014 250ft 1,50 4.00 12.00 in : : J Key Width : 12,00 in Key Depth 18,00 in Key Distance from Toe 3.00 ft Cover@ Top : 3,00 in @ Btm,: 3,00 in I Adja~ent Footing Load I Adjacent Foolirig Load ' "'850,0 Ibs Footing Width 2.00 ft Eccentricity = 0.00 in Wall to Ftg CL Dist 9,50 ft Footing Type Line Load Base Above/Below Soil at Back ot Wall 0,0 ft 0.670 358.8 551.6 822,7 6,2 19.4 30.00 30,00 84,0 5.25 2nd Slem OK 0,00 Masonry 12,00 # 5 32,00 Edge 0,606 592,5 1,178,8 1,946,4 5,9 19.4 30.00 6,00 133,0 9,00 1,500 24,000 Yes No 25,78 1.000 11.62 psi = psi:: other Acceptable Sizes & Spacings Toe: #4@ 17,00 in, #5@26,25in,#6@37,OOin,#7@46,25in,#8@46,25in,#9@ 4 Heel: Not req'd, Mu < S . Fr Key: #4@ 16,00 in, #5@ 24,75 in, #6@ 35, \~ I I I I I I I I I I I I I I I I I I I Alatorre & Associates Civil Engineers 1520 S. San Jacinto Ave. Ste #1 San Jacinto, CA 92583 Fax:909~54~681 PH:909-487-1722 mle: Lowry Res, Job # Dsgnr: Ron Cote, Desgnr A Date: 2:09PM, 6 APR 04 Description: Retaining walls as part of the grading plan at the rear yard of the lot Scope: Retaining '.valls and as noted Rev 560100 User KW-060902. VeT 5 6 1 25-0cl-2002 (c.)1983-2oo2 ENERCALC Engineering Software Cantilevered Retaining Wall Design Page 2 cldocumentsandsettlngs\alex\mydocumenls\j Description Portion of the wall for H=6'-O" Max _ Sum, rna ry'()f ()v~rt~r~ing&,~.es i,sti n~ ,F orc.e,s,~..M ~,rne n,ts,., ' ....,OVERTURNING..... Force Distance Moment Ibs ft ft-# 784,0 2,33 1,829,3 .....RESISTING...., Force Distance 100 ft 330,0 3,75 Moment ft-# 1,237,5 Item Heel Active Pressure Toe Active Pressure Surcharge Over Toe Adjacent Footing Load Added Lateral Load Load @ Stem Above Soil = Seismicload Soil Over Heel Sloped Soil Over Heel Surcharge Over Heel Adjacent Footing Load Axial Dead Load on Stem Soil Over Toe Surcharge Over Toe Stem Weight(s) = Earth @ Stem Transitions = Footing Weight = Key Weight Vert. Component 0,00 68,8 1,25 85,9 569,2 2,89 1,642,1 171.2 3,33 570,8 600.0 2.00 1,200,0 225,0 3,50 787,5 234,6 4,00 938.4 2,198,8 Ibs R.M.= 6,462.2 = 47.3 22.7 2,08 = = = Total 806,7 1,876,6 3.44 2,198,8 Ibs O.T.M. Resisting/Overturning Ratio Vertical Loads used for Soil Pressure = Vertical component of active pressure used for soil pressure Total = \C\ I I I I I I I I I I I #O@O,ln @Toe I I #O@O,ln @Heel I I I I I I 8,000051n Mas wi #5 @ 24,In ole Solid Grout, 12,OOO5in Mas wi #5 @ 8.in ole Solid Grout, 3"J'--- T . Designer select all horiz. reinf. 3'-0" 2'-6" ----;:?' , 2314" 5'-4" 8'-0" 8'-0" . . 2'-8" 3" 3" I . , , t . . =:I 1'-0" . 3" 1'-6" 4'-0" 2'-6" 1'-0" 20 I Alatorre & Associates Civil Engineers 1520 S. San Jacinto Ave. Ste #1 San Jacinto, CA 92583 Fax:909.o54.o681 PH:909-487-1722 I Title: Lowry Res, Job # Dsgnr: Ron Cote, Desgnr. A Date: 2:09PM, 6 APR 04 Description: Retaining walls as part of the grading plan at the rear yard of the lot Scope: Retaining walls and as noted I Re-, 560100 Use) KW-060002. Ver 5 6 j 25.0cl-2002 (,)1983.2002 EN!:RCALC Engir'leerir'll,l Software Page 1 c:ldocumer'lts and setlir'lgs\alexlmy documer'lt5\j Cantilevered Retaining Wall Design Description Portion of the wall for H=8'-Q" Max I ; Criteria Retained Height Wall height above soil Slope Behind Wall Height of Soil over Toe Soil Density : 8,oon o,oon 0,00: 1 3,00 in 110,00 pet I I Wind on Stem : 0,0 pst I I Surcharge Loads Surcharge Over Heel = 0.0 psf Used To Resist Sliding & Overturning Surcharge Over Toe 0.0 psf Used for Sliding & Overturning I I Axial Load Applied to Stem, Axial Dead Load O,Olbs Axial Live Load = 0.0 Jbs Axial Load Eccentricity: 0,0 in : Design Summary Total Bearing Load ...resultant ecc. I I 2,870 Ibs 3.94 in I Soil Pressure @ Toe 1,071 psf OK Soil Pressure @ Heel 364 psf OK Allowable 1,500 pst Soil Pressure Less Than Allowable ACI Factored (!! Toe 1,195 pst ACI Factored @ Heel 406 pst Footing Shear@Toe: 17,2 psi OK Footing Shear @ Heel 13,5 psi OK Allowable : 93,1 psi Wan Stability Ratios Overturning = 2.20 OK Sliding : 1.SS OK Sliding Cales (Vertical Component Used) Lateral Sliding Force 1,325,9 Ibs less 100% Passive Force = 1,054.7Ibs less 100% Friction Force = 1,004.4lbs Added Force Req'd 0,0 Ibs OK ....tor 1,5: 1 Stability 0,0 Ibs OK I I I I l: , Footing Design Results I Factored Pressure Mu' : Upward Mu' : Downward Mu: Design Actual1.Way Shear Allow 1-Way Shear Toe Reinforcing Heel Reinforcing Key Reinforcing -.--.!QL 1,19S 3,834 940 2,89S 17,1S 93,11 None Spec'd = None Spec'd = None Spec'd ~ 406 pst o ft.JI 735 n.JI 735 n.JI 13,53 psi 93,11 psi : : I : I '1 t" Top Stem <.... Stem OK ft: 2,67 Masonry 8,00 # S 24,00 Edge 1,500 24,000 Yes No 25.78 = 1.000 in = 7.60 Normal Weight Soil Data ':.~;r:.""'~"~7t:_~..::,-,;:c:,;""';::, Allow Soil Bearing : 1,500,0 pst Equivalent Fluid Pressure Method Heel Active Pressure = Toe Active Pressure Passive Pressure Water height over heel FootingllSoil Friction Soil height to ignore for passive pressure : 32,0 0,0 150.0 0,0 n 0,350 : 0.00 in IL~te~al, ~oa,dApplied to Stem Lateral Load 0,0 #/n ...Height to Top = 0.00 ft ...Height to Bottom 0,00 n L Stem Construction Design height Wall Material Above "Ht" Thickness Rebar Size Rebar Spacing Rebar Placed at Design Data fb/FB + fa/Fa Total Force @ Section Ibs = Moment....ActuaJ ft-# = Moment....,Allowable ft.JI : Shear.....Actual psi: Shear.....Allowable psi: Bar Develop ABOVE HI. in: Bar Lap/Hook BELOW Ht. in = Wall Weight pst: Rebar Depth 'd' in = Masonry Data fm Fs Solid Grouting Special Inspection Modular Ratio 'n' Short Term Factor Equiv, Solid Thick, Masonry Block Type = Concrete Data fc Fy psi = psi = J I ~ooting :~~~ngths & Dimensions I. fc : 3,000 psi Fy: 60,000 psi Min. As % 0.0014 Toe Width 2,50 ft Heel Width 1,50 Total Footing Width 4,00 Footing Thickness = 12.00 in Key Width 12,00 in Key Depth 30,00 in Key Distance from Toe 3.00 ft Cover (!! Top : 3,00 in (!! Btm,: 3,00 in I Adjacent Footing Load I. Adjacent"FOOling'Loaa'-S500IbS Footing Width 2,00 n Eccentricity = 0.00 in Wall to Ftg CL Dist 9,50 n Footing Type Line Load Base Above/Below Soil at Back ot Wall : 0,0 ft 0.899 468,S 823,9 916.4 8,2 19.4 30.00 30,00 84,0 S,2S 2nd Stem OK 0,00 Masonry 12,00 # 5 8,00 Edge 0.856 1,049,6 2,802,5 3,274.4 11,0 19,4 30,00 6,00 133,0 g,OO 1,SOO 24,000 Yes No 25,78 1.000 11,62 : : psi = psi = other Acceptable Sizes & Spacings Toe: #4@ 17,00 in, #5@ 26,2S in, #6(!! 37,00 in, #7@ 48,25 in, #8@ 48,25 in, #9@ 4 Heel: Not req'd, Mu < S * Fr Key: #4@ 16,00 in, #S@ 24,7S in, #6(!! 35, ;2.\ I Alatorre & Associates Civil Engineers 1520 S. San Jacinto Ave. Ste #1 San Jacinto, CA 92583 Fax:909-654-8681 PH:909487-1722 I Tille; Lowry Res, Job # Dsgnr: Ron Cote, Desgnr. A Date: 2:09PM. 6 APR 04 Description: Retaining walls as part of the grading plan at the rear yard of the 101 Scope: Retaining walls and as noted I R~y 560100 U", KW.060902,V,,561,25~O",2002 Cantilevered Retaining Wall Design (c)H?83.2002 ENERCALC Engineering SoftNare Description Portion of the wall for H=8'-O" Max Page 2 c \documents arid settmgs\alex\my documents'~ I ~w.__.._,....~_....',. .. .. --"......-. .-- "' ..... ..- .. L SU,mmary. Of.()X~r:t~fl)}n,g~~~Si~!i~gf'..~~~,~,~cirv1()mel1t~ .....OVERTURNING..... Force Distance Moment Ibs ft ft-# 1,296,0 3,00 3,888,0 I Item Heel Active Pressure Toe Active Pressure Surcharge Over Toe Adjacent Footing Load Added Lateral Load Load @ Stem Above Soil = Seismic load = I 29,9 3,36 1()(),5 I I Resisting/Overturning Ratio Vertical Loads used for Soil Pressure = 3,988,5 2.20 2,869,8 lb. Total 1,325,9 a.T.M. = = Vertical component of active pressure used for soil pressure I I I I I I I I I I I Soil Over Heel Sloped Soil Over Heel Surcharge Over Heel Adjacent Footing Load Axial Dead Load on Stem Soil Over Toe = Surcharge Over Toe = Stem Wei9ht(s) = Earth @ Stem Transitions = Footing Weight Key Weight Vert. Component Total = = ....,RESiSTING.. Force Distance Ibs ft 440,0 3,75 Moment ft-# 1,650,0 = 0,00 88,8 1,25 85,9 802,8 2,91 2,333,9 195.4 3,33 651.4 600,0 2,()() 1,200,0 375,0 3.50 1,312,5 387,8 4,()() 1,551,2 2,889,8 Ibs R.M.= 8.785,0 2.2..