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Home My WebLink AboutPD 2019-0015; CARLSBAD INN MITIGATION; STRUCTURAL CALCULATIONS FOR SHORING AFFECT CHECK; 2019-09-23STRUCTURAL • CIVIL • SURVEY • LAND PLANNING 9449 Balboa Avenue, Suite 270 • San Diego, CA 92123 BNVE Phone (619) 299-5550 • Fax (619) 299-9934 www.bwesd.com T RECORD COPY ENGINEER: mbb Initial Date DATE: September 23, 2019 PROJECT NUMBER: 12945A.01 OCT 01 ZO9 LAND DEVELOPMENT ENGINEERING STRUCTURAL CALCULATIONS FOR Shoring Affect Check CARLSBAD INN BEACH RESORT CARLSBAD, CALIFORNIA MICHAEL BAKER INTERNATIONAL SHOP DRAWING REVIEW Proj No 139000 Shop Dwg. No STRUC CAICS R2 Date TUESDAY_09_24_2019 By Cs EJ NO EXCEPTIONS TAKEN D MAKE CORRECTIONS NOTED D SUBMIT SPECIFIED ITEM D REVISE AND RESUBMIT 0 REJECTED Review is only for general conformance with the design concept of the project and general compliance with the information included in this Contract Document(s). Any action shown is subject to the requirements of the drawings and specificatons. Contractor is responsible for: construction, coordination of his/her work with that of other trades, and performing the work in a safe and satisfactory manner. 09-23-19 Prepared for GRAND PACIFIC RESORTS, INC. 5900 PASTEUR CT, #200 CARLSBAD, CALIFORNIA DATE 9/19 B vVE SHEET ENGR mbb LMGRfUUO TO EXCEED EXPECTATIONS JOB NO PROJECT 12945A.01 BASIS OF DESIGN Check the existing building structural system (two three-story wood framed residential buildings atop a precast concrete podium slab supported by concrete and CMU bearing / shear walls and concrete columns) for the additional load imposed by the shoring system by Elliott Drilling Services and Shoring Design Group. The calculations are in response to email comments provided by Michael Baker Intl (recd Sept 13, and are copied below: -Shear wall check needs to include lateral seismic forces in the same direction with the lateral soil demands imposed by the shoring. 'Diaphragm shear capacity, collectors (if any) and chords shall be checked for the same load case described above. 'Lateral Drift (for the same case) to be within the limits prescribed by CBC /ASCE 7. Verify the condition shown in the snapshot below and determine if shoring lateral demands can be transferred into the diaphragm safely Additional plan review comments were received Sept. 18 and are copied below; 'Introduce Notional loads for the lateral analysis acting in the same direction as the seismic and shoring loads (I realize this might be conservative, however your seismic analysis does not account for any horizontal or vertical irregularities) Compare allowable story drifts (use table 12.12-1 ASCE7- 10) to amplified story drifts using Deflection Amplification Factor Cd. 'Check the overall sliding FS using the seismic, notional and shoring demands combined in the same direction. Use geotechnical recommendations for the sliding coefficient between concrete and soil. Responses to the Sept. 18 comments: -1 would concur that introducing notional loads is conservative. Nonetheless, notional loads have been introduced and have been added to the analysis. See caic page SC-16. -Amplified deflection vs. allowable story drift is shown on caic page SC-1 7. -Safety factor for sliding is shown on caic page SC-1 8. DATE ____________ B\V_. SHEET - ENGINEERED TO IICO EXPECTATIONS ENGR JOB NO - (J PROJECT - 1tzu FFc C'Ck. (Sitk .,J—ct ' g Tc.sf FItc44. Piii p I ; )tstcC 1.0 4 * 1 F t'Jp. 2-15 'Ic 16 "V A,tLS( 42 i-El *1 1.0 _ - Mom —oItSz 50 (e c_I t4c C.w,O .ctl.. IV P 2.00 sc-i DATE 13NVE INIINIUIO TO EXCEED (XPICTATICNI ENGR PROJECT SC-2 SHEET JOB NO LM (Ic £ 'it So") (20d i 56") 1 fle'O M-1 L (lWC t4M.) (!4' 3C 'I 2 10 750 2.F &ec) v. I I At + 242') +(4' t + (6'. l) (r\ +(c' 144") (' u.' z) W42.4 : (4b' s z z.() + (4e y ")+ (&' t 4\) Z 1065, • 1__. (jNt ,ttkLA\ ('>4' II, 241 Y. Lic") (Uu*u-S) -- (ZIA w- Z -,- k-LL- 4 4 41 1 - IL C - t4L' :(eOl ______ DATE _____________ IS Y • SHEET IOSIIRI0 TO ItCIVD IIPICTATIONI ENGR ________________ JOB NO PROJECT -iiv A (1'1a' ~,O" liti 21" zo ' to€"). (trç. 16) -(I4 4951) 1101 L Ptz- I CML) - L1++613ci.u.4404-70 - O -OLtO+z 43(, wr llqOl K 145 c4ect I ic 1 I7,,OO 9/.13/2019 1' Cbad Inn U.S. Seismic Design Maps Latitude, Longitude: 33.16, -117.35. - '--• - - -. •. '..' \ '' '. ':. . - ' ' ":s ... ••• \~e) .'.Carlsbad Village . 6 Om ' kalineWater,? sS~y \\,árlsbad Port Carlsbad.V..\ Cbmmünit Church..•- 19 G Lyffh;.Forbes Sculp~qire 'starbucksQ CarlsbadSlgrlQ \s .. ••\ \\ • .. \ \''...'- '.. \ Map data Date 9/13/2019, 3:51:37 PM Design Code Reference Document ASCE7-10 Risk Category II Site Class D - Stiff Soil Type Value Description - Ss 1.156 MCER ground motion. (for 0.2 second period) Si 0.443 MCER ground motion. (for 1.0s period) SMS 1.2 Site-modified spectral acceleration value SM1 0.69 Site-modified spectral acceleration value SDS 0.8 Numeric seismic design value at 0.2 second SA SDI 0.46 Numeric seismic design value at 1.0 second SA Type Value Description -- - SDC D Seismic design category F0 1.037 Site amplification factor at 0.2 second F 1.557 Site amplification (actor at 1.0 second PGA 0.46 MCE0 peak ground acceleration FpGA 1.04 Site amplification factor at PGA PGAM 0.478 Site modified peak ground acceleration TL 8 Long-period transition period in seconds SsRT 1.156 Probabilistic risk-targeted ground motion. (0.2 second) SsUH 1.232 Factored uniform-hazard (2% probability of exceedance In 50 years) spectral acceleration SO 1.532 Factored deterministic acceleration value. (0.2 second) S1RT 0.443 Probabilistic risk-targeted ground motion. (1.0 second) S1UH 0.448 Factored uniform-hazard (2% probability of exceedance in 50 years) spectral acceleration. SID 0.623 Factored deterministic acceleration value. (1.0 second) PGAd 0.597 Factored deterministic acceleration value. (Peak Ground Acceleration) CRS 0.938 Mapped value of the risk coefficient at short periods CR1 0.99 Mapped value of the risk coefficient at period of 1 s - httpsi/selsmlcmapsorg 1/2 2.5 5.0 75 Period, T (sec) - Sa(g) Design Response Spectrum 0.8 Ô.6 0.4 0.2 0.0 0.0 9/13I2119 U.S. Seismic Design Maps SC-5 MCER Response Spectrum 1.5 1.0 Bi 0.5 0.0 0.0 2.5 5.0 7.5 Period, T (sec) - Sa(g) DISCLAIMER While the information presented on this website is believed to be correct, SEAOC !QH_P9 and Its sponsors and contributors assume no responsibility or liability for Its accuracy. The material presented In this web application should not be used or relied upon for any specific application without competent examination and verification of its accuracy, suitability and applicability by engineers or other licensed professionals. SEAOC I OSHPD do not Intend that the use of this Information replace the sound judgment of such competent professionals, having experience and knowledge in the field of practice, nor to substitute for the standard of care required of such professionals In Interpreting and applying the results of the seismic data provided by this website. Users of the information from this website assume all liability arising from such use. Use of the output of this website does not imply approval by the governing building code bodies responsible for building code approval and interpretation for the building site described by lat.ltudeflongitude location in the search results of this webstie. httpsJiseismlcmaps.org .212 DATE ____________ UJ1Y SHEET SG-6 - - IGUUO TO UCUO IXPICTATIONI - ENGR •• - - - JOB NO -- PROJECT - - t ødtC 5.0 0.16 o:i. W (ccc3& - -I LO - ( - SEE SHEETS ATTACHED. U ____ RWr SC-7 DATE _____________ I IV SHEET ItINIIUO TO IXCLID IXPICT4flON5 ENGR ________________ JOB NO PROJECT I -P)L A44O&1 ge Ri¼7r . oi 2 I 4Pi1jC-. M L : I,Nlr4j tC.. Ii p4 R =P47—r4k s I t\ LE i.'7 I 'c s- 35 Ii.6 l' 1 -7- 9- + (10-1 '&) 94; 44 +&t1t1 toil p1 4. toll (OU C4€9 it S: O.c Pit t-.c S; 't 4 (t.ssb ) / 4,4 4 1L 4 S.4;7cO (043 •2. 11,41 ' s COG in t IX .1: 40 + iCc, 4 z '&vI& I C RWF DATE _____________ U VT - SHEET INGINIIR1O TO W110 UP1CTATONI ENGR _______________ JOB NO PROJECT c4 'VSt u 5._b.c 4 -i.. 415s S 3Lt LLfl ;5(421t: 2-5 t - 4qz.4' 4 c4,E VI • 3_c F 12, +.. oa-s !-!c - - I . Ma 12, v S4' 4'2ik C4 Vu- -I 70 4 1_c 11' ?,.. •-20r LIL50) &zO - 4 2 - 1&Q 6(ft + Lb -i- ZE) 13NVE SC-9 DATE ______________ SHEET ENGR ________________ INCSNIIRID TO ttCttD IIPICTATSOU JOB NO (J PROJECT 4p \)i 67-V 25 4— x It 4& Z-f 41C! :L4 IQ( t4'U 46' z P :53 + 33 1 32. ±i :(bo.1') .O c. 1613 143 OIL t + + 42. tlq.o bL1.( LSIt DATE t111L( 13WLM iGIlUIO TO UCHO ENGR (J PROJECT Lctkce ( sc-b SHEET - JOB NO OJIF. L#t -°k PçfziD -ro - IDG6 U.)) - (z4bço I ece. VL Ak4X 1".' r'1 P F.L Vuton/. 4,4IM t(4p1 .& 4090 Ant.&c ( f4i (i ta.. 704 ? • r • -- C,ti,t 9 = •c('( ( 2 '• .00OL(' 4c(46co) ,4 (IM -A .,oi . -7 69 Ot LCt6.. - L k). L Sit- ud*l,. (: Co4 c-af t4O.Gt 34IC. VU FQM 24 b(0 ")V 0 3 Lv RMI r. DATE _____________ VT - SHEET IøiNISUO TO IICUD UPICTATIOIJ ENGR _____________ JOB NO PROJECT - • C&4- t'1t0 1#c. f I cZ IOI k& -ref r Co'JTV_t 5 1TcO)0 c 2-M i.) vi 4t. . 5 (i): (€ __s' E-H• -64~(Z-) us-Fero x - ( 3t' • - 4w )2 01-1 (coft 0 Company : BWE Designer : mbb 111RISA Job Number : 12945A RAn,lI ('ID k. ,II ANEMETSCHEXCOMPMJY flCuii SJUIJJS Wilts alucul flOil SC-12 Sept 17, 2019 10:57 AM Checked By:_____ (Global) Model Settings Display Sections for Member Calcs 5 Max Internal Sections for Member Calcs 97 Include Shear Deformation? Yes Increase Nailing Capacity for Wind? Yes Include Warping? Yes Trans Load Btwn Intersecting Wood Wall? Yes Area Load Mesh (inA2) 144 Merge Tolerance (in) .12 P-Delta Analysis Tolerance 0.50% Include P-Delta for Walls? Yes Automatically Iterate Stiffness for Walls? Yes Max Iterations for Wall Stiffness 3 Gravity Acceleration (ftlsecA2) 32.2 Wall Mesh Size (in) 24 gensolution Convergence Tol. (1 .E-) 4 Vertical Axis I Y Global Member Orientation Plane XZ Static Solver Sparse Accelerated Dynamic Solver Accelerated Solver Hot Rolled Steel Code AISC 14th(360-10): ASD Adjust Stiffness? Yes(Iterative) RlSAConnection Code AISC 14th(360-10): ASD Cold Formed Steel Code AISI SI00-12: ASD Wood Code AWC NDS-12: ASD Wood Temperature <IOOF Concrete Code ACI 318-11 Masonry Code ACI 530-13: ASD Aluminum Code M ADM I-lO: ASD - Building Stainless Steel Code AISC 14th(360-10): ASD Ad lust Stiffness? I Yes( Iterative)• Number of Shear Regions 4 Region Spacing Increment (in) 4 Biaxial Column Method Exact Integration Parme Beta Factor (PCA) .65 Concrete Stress Block Rectangular Use Cracked Sections? Yes Use Cracked Sections Slab? Yes Bad Framing Warnings? No Unused Force Warnings? Yes Min I Bar Diam. Spacing? No Concrete Rebar Set REBAR SET ASTMA6I5 Mm % Steel for Column I Max % Steel for Column 8 RISA-313 Version 17.0.2 [A:...\...\.. .\.. .\phase 3\Hotel Shonng\conc shear wall.r3d] Page 1 SC-13 Company : BWE Sept 17, 2019 IIIRISA Designer : mbb 10:57 AM Job Number : 12945A Checked By:_____ ANEMETSHEKCOMNY Model Name : CIBR conc shear wall (Global) Model Settings, Continued Seismic Code ASCE 7-10 Seismic Base Elevation (ft) Not Entered Add Base Weight? Yes CtX .02 CtZ .02 T X (sec) Not Entered T Z (sec) Not Entered R 3 R 3 Ct Exp. X .75 Ct Exp. Z .75 SDI I___________________________ SDS .1 SI 1 TL (sec) 5 RiskCat I or 11 Drift Cat Other mZ )mX d d ho ho Concrete Properties Label E Iksi1 G lksil Nu Therm (\1 E..DensitvFklft... fcrksil Lambda Flex SteelF... Shear Stee Joint Coordinates and Temperatures Label X Ff11 Y Fill Z Fill Tema, FF1 Detach From Dim,... I N5 0 1 15 0 1 0 2 N6 0 25 0 0 3 N7 30 25 0 0 4 N8 30 15 0 0 Wall Panel Data Label A Joint B Joint C Joint D Joint Material Type Material Set Thicknes... Design Rule Panel/Spacing I1 I wPi I N5 I N6 I N7 I N8 I Concrete IConc3000NWI 16 I Typical I N/A Joint Loads and Enforced Displacements (BLC 2: Lateral wall) RISA-31D Version 17.0.2 [AA ... \ ... \ ... \ ... \phase 3\Hotel Shonngconc shear wall.r3d] Page 2 SC-14 Company : BWE Sept 17, 2019 IIIRISA Designer : mbb 10:57 AM Job Number : 12945A Checked By:_____ ANEMETSCHEK COMPANY Model Name : CIBR conc shear wall Basic Load Cases BLC Descriotion Category X Gravity Y Gravity Z Gravity Joint Point Distilbuted Area(Me... Surface(P... .1 2 I Lateral wall I None I I -1 I I 2 Load Combinations Joint Deflections (By Combination) V flI V r..1 7 r...1 V Dee r.-Ai V Dee f.,11 7 DhI r41 -- -- -= I I I I RISA-3D Version 17.0.2 [A:\. ..\. ..\. ..\. ..phase Motel Shonng\conc shear wall.r3d] Page 3 SC-15 N7 N8 BWE SK-11 mbb CIBR conc shear wall Sept 17, 2019 at 10:52 AM 12945A conc shear wall.r3d SC-1 6 ______ Iwr _DATE _____________ S !Y • SHEET _____________ iniuuio TO IXCUD INP1CYATS0N5 ENGR ____________ JOB NO PROJECT IL/Wi I z , (vep I A. Li = Jt0y2qV L-w OLM4 DL4Pt9S'A,V /2-% 412. < C4P,4tr(' 1c4 cc Wi c&- v4 -s k '-, LL2 r0 - SC-17 . , . DATE ______________ IJ IV — SHEET INQINUflO TO UCUO IXPICT4VION5 ENGR ________________ JOB NO PROJECT -tWe PcftAM pg.cç -ç: -, 4J1i 2:57 RL~ ,çM4LXS(-. - o41t se L\ C2—'5 L2 'I: 3.4" r DATE _____________ ff.VE SHEET - IGlIfttD TO EXCEED I1PICT4TSOS ENGR _____________ JOB NO___. PROJECT Cs-tct S(..ID (P.4 R&,45 F- etal atkcLc4 4 6V t( -i'c1j,L Jt I I SC-18 H SC-19 Mark Batten From: Shawn Caya <scaya@christianwheeler.com> Sent: Monday, September 23, 2019 11:16 AM To: Mark Batten Cc: Keith Whaley (KWhaley@kmcgroup-llc.com); Troy Wilson Subject Carlsbad Inn Hi Mark, Based on our recent conversation you need a value for the friction coefficient between concrete and soil as part of your evaluation of the existing building and planned temporary shoring. Given the existing soil conditions and the results of our previous laboratory testing, we recommend that a coefficient of 0.5 be used in your evaluation. Please let me know if you have any questions. Thanks, 1 d • Shawn Caya, Senior Geotechnical Engineer , Christian Wheeler Engineering 3980 Home Avenue, San Diego 92105 Direct: 619.550.1732 I Office: 619.550.1700 www.christianwheeler.com f GeurechniciI & (;eulogk:il (onuJung Services I Materials Testing & 1n13ccttnJ Luborarory Sctvicts I I,i'iroirnentiI Consulting Itooling & \'<i;crptoofing Consulting 1 I