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Home My WebLink About18507 86th Dr Ne_BLD5458_2025 Permit Packet Coversheet Community and Economic Development City of Arlington • 18204 59th Avenue NE • Arlington, WA 98223 • Phone (360) 403-3551 Page 1 of 1 Permit Number: Permit Type: Address/Parcel: Completed (Month/Year): Land Use Notice of Decision Staff Report Application Narrative Legal Description Vicinity Map Site Plan Landscape Plan Complete Streets Checklist Traffic Impact Analysis Snohomish County Traffic Mitigation Offer WSDOT Traffic Offer Form Tree Survey Stormwater Drainage Report Geotech Report Critical Area Evaluation Form SEPA Checklist Public Notice Material Noticing and Related Documents Water / Sewer Availability Certificate Unanticipated Discovery Plan Form Aerial Photo of Site Proposed Building Materials Lighting Plans and Lighting Cut Sheets Color Elevations Design Matrix Plat Map Title Report Lot Closures Preliminary Civil Plans Archaeological Survey o Confidential Documents. Contact the City to obtain. Topography (Existing Conditions) CC&R’s Deeds / Easements / Conveyances /Dedications Developer’s Agreement Recorded Copies Bonding or Assignment of Funds o Confidential Documents. Contact the City to obtain. Letters and Project Documents Other: Civil Issued Permit Application Other Applications Construction Calculation Worksheet Approved Plans Review Comment Form Letters and Project Documents Other Agency Permits Reports: o Drainage Report Pg: o Stormwater Pg: o Geotech Pg: o All Other Reports SEPA and Noticing Materials Inspections As-Builts Other: Building Issued Permit Application Additional Applications Approved Plans Site Plan Letters and Project Documents Calculations Project Specification Manuals Reports Certificate of Occupancy Inspections Other: BLD5458 Residential Single Family 18507 86th Dr Ne December 2024 ✔ ✔ ✔ ✔ CITY OF ARLINGTON 18204 59th Avenue NE, Arlington, WA 98223 INSP ECTIONS: 360-403-3417 - Permit Center: 360-403-3551 B UILDING PERM IT 18507 86TH DR NE Parcel #: Pe rmit #: 5458 PERMIT EXPIRES 180 DAYS AFTER DATE OF ISSUANCE. Scope of Work: Construct SFR Valuation: 543571.50 OWNER APPLICANT CONTRACTOR BRIDGEMONT LLC Bridgemont LLC Robinett Homes, LLC 116 AVE C 116 Avenue C 116 Avenue C SNOHOMISH, WA 98290 Snohomish, WA, 98290 Snohomish, WA 98290 4254902205 425-490-2205 LIC: 602167298 EXP: 01/31/2025 LIC: ROBINHL943LZ EXP: 10/19/2024 MECHANICAL CONTRACTOR PLUM B ING CONTRACTOR LIC #:EXP:LIC #:EXP: JOB DESCRIPTION P ERMIT TYPE:RESIDENTIAL SINGLE FAMILY CODE YEAR:2018 STORIES:2 CONST. TYP E:VA DWELLING UNITS:1 OCC GROUP :R-3; Residential BUILDINGS:1 OCC LOAD: PERMIT APPROVAL The issuance or granting of this permit shall not be construed to be a permit for, or approval of, any violation of this Code or any other ordinance or order of the City, of any state or federal law, or of any order, proclamation, guidance advice or decision of the Governor of this State. To the extent the issuance or granting of this permit is interpreted to allow construction activity during any period of time when such construction is prohibited or restricted by any state or federal law, or order, proclamation, guidance advice or decision of the Governor of this State, this permit shall not authorize such work and shall not be valid. The building official is authorized to prevent occupancy or use of a structure where in violation of this Code, any other City ordinances of this jurisdiction or any other ordinance or executive order of the City, or of any state or federal law, or of any order, proclamation, guidance advice or decision of the Governor. The building official is authorized to suspend or revoke this permit if it is determined to be issued in error or on the basis of incorrect, inaccurate or incomplete information, or in violation of any City ordinance, regulation or order, state or federal law, or any order, proclamation, guidance or decision of the Governor. I AGREE TO COMPLY WITH CITY AND STATE LAWS REGULATING CONSTRUCTION AND IN DOING THE WORK AUTHORIZED THEREBY; NO P ERSON 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 APP LICATION IS NOT A P ERMIT UNTIL SIGNED BY THE BUILDING OFFICIAL OR HIS/HER DEP UTY AND ALL FEES ARE PAID. IT IS UNLAWFUL TO USE OR OCCUP Y A BUILDING OR STRUCTURE UNTIL A FINAL INSPECTION HAS BEEN MADE AND APPROVAL OR A CERTIFICATE OF OCCUPANCY HAS BEEN GRANTED. IBC110/IRC110. SALES TAX NOTICE: Sales tax relating to construction and construction materials in the City of Arlington must be reported on your sales tax return form and coded City of Arlington #3101. 03/28/2024 Applicant Signature Date Building Official Date Sarah Uplinger CONDITIONS See redlined drawings for additional requirements. Adhere to approved plans. Service elements are not allowed on the facade of the structure. All electrical (PUD), heating units, AC units, etc. are to be placed on the side or rear of the structure. Approved job copy shall be onsite for inspections. Call for inspections. The property owner shall ensure that the construction project complies with all applicable zoning codes and regulations. The property owner shall also ensure that the construction project does not cause any adverse impact on the surrounding environment or community. The property owner shall be responsible for obtaining all necessary permits and approvals from the relevant authorities before commencing construction. The property owner shall ensure that the construction project complies with all applicable design review requirements. THIS P ERMIT AUTHORIZES ONLY THE WORK NOTED. THIS P ERMIT COVERS WORK TO BE DONE ON P RIVATE PROPERTY ONLY. ANY CONSTRUCTION ON THE P UBLIC DOMAIN (CURBS, SIDEWALKS, DRIVEWAYS, MARQUEES, ETC.) WILL REQUIRE SEP ARATE PERMISSION. PERM IT FEES Date De s cription Fe e Amount 03/28/2024 Building Plan Review $3,365.77 03/28/2024 Processing/Technology $25.00 03/28/2024 Building Permit $5,175.02 03/28/2024 Park - Community SF $1,662.00 03/28/2024 State Surcharge - 1st DU $6.50 Total Due :$10,234.29 Total Payme nt:$10,234.29 B alance Due :$0.00 CALL FOR INSPECTIONS Call by 3:30 pm for ne xt day ins pe ction, allow 48 hours for Fire Ins pe ctions Whe n calling for an ins pe ction ple as e le ave the following information: Pe rmit Numbe r, Type of Ins pe ction be ing re que s te d, and whe the r you pre fe r morning or afte rnoon INSPECTION INFORM ATION Pas s /Fail SITE PLAN FOR IN THE NW 1/4 OF THE NW 1/4 OF SECTION 24, T.31N., R.5E., W.M. LOT 15, BRIDGEMONT RB - AFN #202212215003 HOUSE ELEVATIONS: LEGEND: OWNER:APPLICANT & CONTACT: PARCEL DATA TAX ACCOUNT NUMBER: NOTES: 6/28/2023 7:43:32 PM tecinstruct LLC 4111 164th St SW Unit 51 Lynnwood, WA 98087 Phone (206) 553 9076 rheimisch@yahoo.com Engineering 1. LATERAL DESIGN Project: Robinett Homes, Plan 3038 tecinstruct LLC 1.1 Seismic Design Criteria Basic Seismic-Force-Resisting System Diaphragms / Shear Walls Medium Building Height H = 25 ft Seimic Use Group II Importance Factor Ie = 1.0 Site Class D Seismic Design Category D Response Factor R = 6.5 (light frame wood building) Seismic Response Coefficient Cs = 0.15 Building Weight The weight of the walls is applied by adding 5 psf to the roof DL and 10 psf to the floor DL . With the flat roof snow load 38 psf, 20% of the snow load is added to the roof DL (ASCE 12.7.2.4) 2nd level W = (15 + 5 + 0.2 x 38) x 1,900 sqft = 52,440 lbs 1st level W = (20 + 10) x 1,900 sqft = 57,000 lbs Total Building Weight W = 109,440 lbs Base Shear VBase = Cs x W = 0.15 x 109,440 = 16,420 lbs Design Shear: To convert from strength level to ASD, Base Shear is multiplied by 0.7 VDesign = 0.7 x 16,420 = 11,500 lbs Vertical Distribution: Fx = Cvx x V = Cvx x 11,500 Cvx = (wx x hxk) / ∑ (wi x hik) with k = 1.0 for T < 0.5 sec Level wx hx wxhx wxhx/∑wihi Fx LLR vxFR LFR vxLR (lb) (ft) (lb-ft) (%) (lbs) (ft) (plf) (ft) (plf) 2nd 52,440 17 891,480 63 7,245 50 145 42 170 1st 57,000 9 513,000 37 4,255 50 85 45 95 ∑ 109,440 --- 1,404,480 100 11,500 Project: Robinett Homes, Plan 3038 tecinstruct LLC 1.2 Wind Design Directional Procedure, Part 2 (simplified method) per ASCE 7-10, Chapter 27.5 Design Criteria: Enclosed Simple Diaphragm Building Risk Category II Basic Wind Speed per Table 26.5-1A 110 MpH Directionality Factor Kd 0.85 Exposure Category C As this design is used as a basic plan for multiple locations, conservatively category „C“ is used to determine wind loads Wind Speed up factor Kzt 1.0 Enclosure Classification enclosed Net pressure at top of wall ph , Table 27.6-1 26.2 psf (conservatively also used for bottom of wall) As the shear wall design is performed for ASD, the load is multiplied with 0.7 Applied wind pressure 0.7 x 26.2 18.34, say 20 psf Uniform wind loads on diaphragms Roof w/ trib h 11 ft w = 10 x 20 = 220 plf Floor w/ trib h 9 ft w = 9 x 20 = 180 plf ° ° 4' 8' 4" 4' 6020 2030 4 x 8 4 x 8 4,620 lbs W 3,570 lbs S 220 plf Wind / 170 plf Seismic AC 4,620 lbs W 3,570 lbs S P1-6 P1-6 P1-6 A P1-6 AA Sh e a r W a l l L a y o u t 2 n d L e v e l ° ° 4' 8' 4" ° DROP ZONE 4' 2050 2050 60-94" S.G.D. I 5-1/8 x 12" GLB 4x104x10 I I I 1,980 lbs W 1,045 lbs S 180 plf Wind / 95 plf Seismic AC 3,960 lbs W 2,090 lbs S B 1,980 lbs W 1,045 lbs S P1-3 P1-3 P1-3 11 P1-6 P1-6 22 22 P1-6 11 Sh e a r W a l l L a y o u t 1 s t L e v e l Pr o j e c t : R o b i n e t t P l a n 3 0 8 3 Sh e a r W a l l T y p e s SW O S B N a i l s N a i l s N a i l s B o u n d a r y S e i s m i c W i n d A n c h o r ty p e e d g e f i e l d M e m b e r l i s t x . 9 4 x 1 . 4 Bo l t 5 / 8 " @ @ (t o a d j u s t @ (i n o . c . ) ( i n o . c . ) fo r H F ) p l f ( i n o . c . ) P1 - 6 7/ 1 6 " 8 d 6 " 1 2 " 2 x 2 2 5 3 1 5 4 8 " P1 - 3 7/ 1 6 " 8 d 3 " 1 2 " 3 x 4 2 5 5 9 0 3 6 " Ro o f 7/ 1 6 " 8 d 6 " 1 2 " 2x 2 2 6 3 1 6 Fl o o r 3/ 4 " C D X 10 d 6" 12 " 2x 30 0 4 2 0 St r a p s Ca l l o u t S t r a p A l l W o o d N a i l s / T M e m b e r B o l t s (l b s ) ( i n ) A MS T 3 7 2 3 4 5 ( 2 ) 2 x 2 0 - 1 6 d B MS T C 4 8 B 3 3 3 8 0 ( 2 ) 2 x 3 8 - 1 0 d Ho l d o w n s Ca l l o u t H D A l l W o o d B o l t B o l t T M e m b e r t y p e e m b m t . (l b s ) 1 HD U 2 2 2 1 5 ( 2 ) 2 x S B 5 / 8 x 2 4 1 8 " 2 HD U 4 3 2 8 5 ( 2 ) 2 x S B 5 / 8 x 2 4 1 8 " te c i n s t r u c t L L C Pr o j e c t : R o b i n e t t P l a n 3 0 8 3 Gr i d 3 W i n d Sh e a r d e s i g n O v e r t u r n i n g Le v e l S h e a r S h e a r L e n g t h S h e a r S W P a n e l L h A s p e c t M o t W a l l R / Fl M r e s M t o t M t o t U p l i f t H W st o r y a c c t o t a l u n i f o r m T y p e Ra t i o t r i b . H t r i b . L R e s t r . a c c T V ( l b s ) V ( l b s ) L ( f t ) v ( p l f ) ( f t ) ( f t ) k / L ( l b - f t ) ( f t ) ( f t) ( l b - f t ) ( l b - f t ) ( l b - f t ) ( l b s 2 55 0 0 5 5 0 0 3 0 . 0 18 3 P 1 - 6 3- 1 p 3 0 . 0 8 0 . 2 7 4 4 0 0 0 8 2 2 6 5 5 0 1 7 4 5 0 1 7 4 5 0 58 2 MS T 3 7 1 23 4 0 7 8 4 0 2 8 . 0 28 0 P 1 - 3 3- 1 2 8 . 0 9 0 . 3 2 7 0 5 6 0 9 2 2 5 4 1 0 4 5 1 5 0 6 2 6 0 0 22 3 6 HD U 2 ba s e d o n p e r f d e s i g n Bo l d i n d i c a t e s t h a t w i n d g o v e r n s p Pa n e l U n i t h o p / Σ L i L Sh e a t h i n g Co q ' Na i l i n g Sh e a r h t o t a l t o t a l f r o m ΣL i / L SD P W S (p l f ) v ( p l f ) ( f t ) ( f t ) % 4 . 3 . 3 . 5 1- 1 2 n d 18 3 h / 2 2 2 3 0 7 3 0 . 8 8 28 4 P1 - 6 1- 1 1 s t 28 0 2 h / 3 2 4 2 8 8 6 0 . 8 6 38 0 P1 - 3 pe r f o r a t e d p a n e l te c i n s t r u c t L L C Pr o j e c t : R o b i n e t t P l a n 3 0 8 3 Gr i d 1 S e i s m i c Sh e a r d e s i g n O v e r t u r n i n g Le v e l S h e a r S h e a r L e n g t h S h e a r S W P a n e l L h A s p e c t M o t W a l l R / Fl M r e s M t o t M t o t U p l i f t H W st o r y a c c t o t a l u n i f o r m T y p e Ra t i o t r i b . H t r i b . L R e s t r . a c c T V ( l b s ) V ( l b s ) L ( f t ) v ( p l f ) ( f t ) ( f t ) k / L ( l b - f t ) ( f t ) ( f t) ( l b - f t ) ( l b - f t ) ( l b - f t ) ( l b s 2 36 2 5 3 6 2 5 3 0 . 0 1 2 1 P 1 - 6 3 - 1 p 3 0 . 0 8 0 . 2 7 2 9 0 0 0 8 2 2 6 5 5 0 2 4 5 0 2 4 5 0 82 MS T 3 7 1 11 0 5 4 7 3 0 2 8 . 0 1 6 9 P 1 - 6 3 - 1 2 8 . 0 9 0 . 3 2 4 2 5 7 0 9 2 2 5 4 1 0 1 7 1 6 0 1 9 6 10 70 0 HD U 2 ba s e d o n p e r f d e s i g n Bo l d i n d i c a t e s t h a t s e i s m i c g o v e r n s p Pa n e l U n i t h o p / Σ L i L Sh e a t h i n g Co q ' Na i l i n g Sh e a r h t o t a l t o t a l f r o m ΣL i / L SD P W S (p l f ) v ( p l f ) ( f t ) ( f t ) % 4 . 3 . 3 . 5 1- 1 2 n d 12 1 h / 2 2 2 3 0 7 3 0 . 8 8 18 8 P1 - 6 1- 1 1 s t 16 9 2 h / 3 2 4 2 8 8 6 0 . 8 6 22 9 P1 - 6 pe r f o r a t e d p a n e l te c i n s t r u c t L L C Pr o j e c t : R o b i n e t t P l a n 3 0 8 3 Gr i d 2 W i n d Sh e a r d e s i g n O v e r t u r n i n g Le v e l S h e a r S h e a r L e n g t h S h e a r S W P a n e l L h A s p e c t M o t W a l l R / Fl M r e s M t o t M t o t U p l i f t H W st o r y a c c t o t a l u n i f o r m T y p e Ra t i o t r i b . H t r i b . L R e s t r . a c c T V ( l b s ) V ( l b s ) L ( f t ) v ( p l f ) ( f t ) ( f t ) k / L ( l b - f t ) ( f t ) ( f t) ( l b - f t ) ( l b - f t ) ( l b - f t ) ( l b s 2 No s h e a r w a l l s i n g r i d 2 a t 2 n d l e v e l 1 45 0 0 4 5 0 0 1 4 . 0 32 1 P 1 - 6 2- 1 8 . 0 9 1 . 1 3 2 3 1 4 3 9 2 1 9 8 0 2 1 1 6 3 2 1 1 6 3 26 4 5 HD U 4 2- 2 6 . 0 9 1 . 5 1 7 3 5 7 9 2 1 0 8 9 1 6 2 6 8 1 6 2 6 8 27 1 1 HD U 4 Bo l d i n d i c a t e s t h a t w i n d g o v e r n s te c i n s t r u c t L L C Pr o j e c t : R o b i n e t t P l a n 3 0 8 3 Gr i d 2 S e i s m i c Sh e a r d e s i g n O v e r t u r n i n g Le v e l S h e a r S h e a r L e n g t h S h e a r S W P a n e l L h A s p e c t M o t W a l l R / Fl M r e s M t o t M t o t U p l i f t H W st o r y a c c t o t a l u n i f o r m T y p e Ra t i o t r i b . H t r i b . L R e s t r . a c c T V ( l b s ) V ( l b s ) L ( f t ) v ( p l f ) ( f t ) ( f t ) k / L ( l b - f t ) ( f t ) ( f t) ( l b - f t ) ( l b - f t ) ( l b - f t ) ( l b s 2 No s h e a r w a l l s i n g r i d 2 a t 2 n d l e v e l 1 21 2 5 2 1 2 5 1 4 . 0 1 5 2 P 1 - 6 2 - 1 8 . 0 9 1 . 1 3 1 0 9 2 9 9 2 1 9 8 0 8 9 4 9 8 9 4 9 11 1 9 HD U 2 2- 2 6 . 0 9 1 . 5 8 1 9 6 9 2 1 0 8 9 7 1 0 7 7 1 0 7 11 8 5 HD U 2 Bo l d i n d i c a t e s t h a t s e i s m i c g o v e r n s te c i n s t r u c t L L C Pr o j e c t : R o b i n e t t P l a n 3 0 8 3 Gr i d 3 W i n d Sh e a r d e s i g n O v e r t u r n i n g Le v e l S h e a r S h e a r L e n g t h S h e a r S W P a n e l L h A s p e c t M o t W a l l R / Fl M r e s M t o t M t o t U p l i f t H W st o r y a c c t o t a l u n i f o r m T y p e Ra t i o t r i b . H t r i b . L R e s t r . a c c T V ( l b s ) V ( l b s ) L ( f t ) v ( p l f ) ( f t ) ( f t ) k / L ( l b - f t ) ( f t ) ( f t) ( l b - f t ) ( l b - f t ) ( l b - f t ) ( l b s 2 55 0 0 5 5 0 0 3 3 . 0 16 7 P 1 - 6 3- 1 3 3 . 0 8 0 . 2 4 4 4 0 0 0 8 2 3 2 1 7 5 1 1 8 2 5 1 1 8 2 5 35 8 MS T 3 7 1 21 6 0 7 6 6 0 3 9 . 0 19 6 P 1 - 6 3- 1 3 9 . 0 9 0 . 2 3 6 8 9 4 0 9 2 4 9 5 5 0 1 9 3 9 1 3 1 2 1 6 80 0 HD U 2 Bo l d i n d i c a t e s t h a t w i n d g o v e r n s te c i n s t r u c t L L C Pr o j e c t : R o b i n e t t P l a n 3 0 8 3 Gr i d 3 S e i s m i c Sh e a r d e s i g n O v e r t u r n i n g Le v e l S h e a r S h e a r L e n g t h S h e a r S W P a n e l L h A s p e c t M o t W a l l R / Fl M r e s M t o t M t o t U p l i f t H W st o r y a c c t o t a l u n i f o r m T y p e Ra t i o t r i b . H t r i b . L R e s t r . a c c T V ( l b s ) V ( l b s ) L ( f t ) v ( p l f ) ( f t ) ( f t ) k / L ( l b - f t ) ( f t ) ( f t) ( l b - f t ) ( l b - f t ) ( l b - f t ) ( l b s 2 36 2 5 3 6 2 5 3 3 . 0 1 1 0 P 1 - 6 3 - 1 3 3 . 0 8 0 . 2 4 2 9 0 0 0 8 2 3 2 1 7 5 - 3 1 7 5 - 3 1 75 -9 6 no t r q d 1 10 2 0 4 6 4 5 3 9 . 0 1 1 9 P 1 - 6 3 - 1 3 9 . 0 9 0 . 2 3 4 1 8 0 5 9 2 4 9 5 5 0 - 7 7 4 5 - 1 0 92 0 -2 8 0 no t r q d Bo l d i n d i c a t e s t h a t s e i s m i c g o v e r n s te c i n s t r u c t L L C Pr o j e c t : R o b i n e t t P l a n 3 0 8 3 Gr i d A W i n d Sh e a r d e s i g n O v e r t u r n i n g Le v e l S h e a r S h e a r L e n g t h S h e a r S W P a n e l L h A s p e c t M o t W a l l R / Fl M r e s M t o t M t o t U p l i f t H W st o r y a c c t o t a l u n i f o r m T y p e Ra t i o t r i b . H t r i b . L R e s t r . a c c T V ( l b s ) V ( l b s ) L ( f t ) v ( p l f ) ( f t ) ( f t ) k / L ( l b - f t ) ( f t ) ( f t) ( l b - f t ) ( l b - f t ) ( l b - f t ) ( l b s 2 46 2 0 4 6 2 0 4 9 . 0 94 P 1 - 3 A- 1 p 1 0 . 0 8 0 . 8 7 5 4 3 8 1 5 6 5 5 5 9 8 8 9 8 8 99 MS T 3 7 A- 2 p 1 6 . 0 8 0 . 5 1 2 0 6 9 8 2 7 4 4 0 4 6 2 9 4 6 2 9 28 9 MS T 3 7 A - 3 p 2 3 . 0 8 0 . 3 5 1 7 3 4 9 8 1 5 3 5 7 0 8 - 1 8 3 5 9 - 1 8 3 5 9 -7 9 8 no t r q d ba s e d o n p e r f d e s i g n 1 19 8 0 6 6 0 0 2 7 . 0 24 4 P 1 - 6 A- 1 1 2 . 0 9 0 . 7 5 2 6 4 0 0 9 5 5 7 9 6 2 0 6 0 4 2 1 5 9 2 17 9 9 HD U 2 P1 - 3 A- 2 p 7 . 0 9 1 . 2 9 1 5 4 0 0 9 5 1 9 1 1 1 3 4 8 9 1 8 1 1 8 25 8 8 HD U 4 P1 - 6 A- 3 4 . 0 8 2 7 8 2 2 8 5 5 4 6 7 2 7 6 7 2 7 6 18 1 9 HD U 2 P1 - 6 A- 4 4 . 0 8 2 7 8 2 2 8 5 5 4 6 7 2 7 6 7 2 7 6 18 1 9 HD U 2 Bo l d i n d i c a t e s t h a t w i n d g o v e r n s p p e r f o r a t e d p a n e l Pa n e l U n i t h o p / Σ L i L S h e a t h i n g C o q ' N a i l i n g Sh e a r h t o t a l t o t a l f r o m ΣL i / L SD P W S (p l f ) v ( p l f ) ( f t ) ( f t ) % 4 . 3 . 3 . 5 A- 1 2 n d 94 5 h / 6 5 1 0 5 0 0 . 5 7 33 0 P1 - 3 A- 2 2 n d 94 5 h / 6 8 1 6 5 0 0 . 5 7 33 0 P1 - 3 A- 3 2 n d 94 2 h / 3 1 0 2 3 4 3 0 . 6 4 33 8 P1 - 3 A- 2 1 s t 24 4 h / 2 5 7 7 1 0 . 8 7 39 3 P1 - 3 te c i n s t r u c t L L C Pr o j e c t : R o b i n e t t P l a n 3 0 8 3 Gr i d A S e i s m i c Sh e a r d e s i g n O v e r t u r n i n g Le v e l S h e a r S h e a r L e n g t h S h e a r S W P a n e l L h A s p e c t M o t W a l l R / Fl M r e s M t o t M t o t U p l i f t H W st o r y a c c t o t a l u n i f o r m T y p e Ra t i o t r i b . H t r i b . L R e s t r . a c c T V ( l b s ) V ( l b s ) L ( f t ) v ( p l f ) ( f t ) ( f t ) k / L ( l b - f t ) ( f t ) ( f t) ( l b - f t ) ( l b - f t ) ( l b - f t ) ( l b s 2 35 7 0 3 5 7 0 4 9 . 0 7 3 P 1 - 3 A - 1 p 1 0 . 0 8 0 . 8 5 8 2 9 8 1 5 6 5 5 5 - 7 2 6 - 7 2 6 -7 3 no t r q d A- 2 p 1 6 . 0 8 0 . 5 9 3 2 6 8 2 7 4 4 0 1 8 8 6 1 8 8 6 11 8 MS T 3 7 A - 3 p 2 3 . 0 8 0 . 3 5 1 3 4 0 6 8 1 5 3 5 7 0 8 - 2 2 3 0 2 - 2 2 3 0 2 -9 7 0 no t r q d ba s e d o n p e r f d e s i g n 1 10 4 5 4 6 1 5 2 7 . 0 1 7 1 P 1 - 6 A - 1 1 2 . 0 9 0 . 7 5 1 8 4 6 0 9 5 5 7 9 6 1 2 6 6 4 1 1 9 3 8 99 5 HD U 2 P1 - 3 A - 2 p 7 . 0 9 1 . 2 9 1 0 7 6 8 9 5 1 9 1 1 8 8 5 7 1 0 7 4 3 15 3 5 HD U 4 P1 - 6 A- 3 4 . 0 8 2 5 4 7 0 8 5 5 4 6 4 9 2 4 4 9 2 4 12 3 1 HD U 2 P1 - 6 A- 4 4 . 0 8 2 5 4 7 0 8 5 5 4 6 4 9 2 4 4 9 2 4 12 3 1 HD U 2 Bo l d i n d i c a t e s t h a t s e i s m i c g o v e r n s p p e r f o r a t e d p a n e l Pa n e l U n i t h o p / Σ L i L S h e a t h i n g C o q ' N a i l i n g Sh e a r h t o t a l t o t a l f r o m ΣL i / L SD P W S (p l f ) v ( p l f ) ( f t ) ( f t ) % 4 . 3 . 3 . 5 A- 1 2 n d 73 5 h / 6 5 1 0 5 0 0 . 5 7 2 5 6 P1 - 3 A- 2 2 n d 73 5 h / 6 8 1 6 5 0 0 . 5 7 2 5 6 P1 - 3 A- 3 2 n d 73 2 h / 3 1 0 2 3 4 3 0 . 6 4 2 6 2 P1 - 3 A- 2 1 s t 17 1 h / 2 5 7 7 1 0 . 8 7 2 7 5 P1 - 3 te c i n s t r u c t L L C Pr o j e c t : R o b i n e t t P l a n 3 0 8 3 Gr i d B W i n d Sh e a r d e s i g n O v e r t u r n i n g Le v e l S h e a r S h e a r L e n g t h S h e a r S W P a n e l L h A s p e c t M o t W a l l R / Fl M r e s M t o t M t o t U p l i f t H W st o r y a c c t o t a l u n i f o r m T y p e Ra t i o t r i b . H t r i b . L R e s t r . a c c T V ( l b s ) V ( l b s ) L ( f t ) v ( p l f ) ( f t ) ( f t ) k / L ( l b - f t ) ( f t ) ( f t) ( l b - f t ) ( l b - f t ) ( l b - f t ) ( l b s 2 No s h e a r w a l l s i n g r i d B a t 2 n d l e v e l 71 5 f r o m g r i d A a b o v e 1 39 6 0 4 6 7 5 3 4 . 0 13 8 P 1 - 6 B- 1 1 1 . 0 9 0 . 8 2 1 3 6 1 3 9 5 4 8 5 1 8 7 6 2 8 7 6 2 79 7 HD U 2 B- 2 2 3 . 0 9 0 . 3 9 2 8 4 6 3 9 5 2 1 7 3 5 6 7 2 8 6 7 2 8 29 3 HD U 2 Bo l d i n d i c a t e s t h a t w i n d g o v e r n s te c i n s t r u c t L L C Pr o j e c t : R o b i n e t t P l a n 3 0 8 3 Gr i d B S e i s m i c Sh e a r d e s i g n O v e r t u r n i n g Le v e l S h e a r S h e a r L e n g t h S h e a r S W P a n e l L h A s p e c t M o t W a l l R / Fl M r e s M t o t M t o t U p l i f t H W st o r y a c c t o t a l u n i f o r m T y p e Ra t i o t r i b . H t r i b . L R e s t r . a c c T V ( l b s ) V ( l b s ) L ( f t ) v ( p l f ) ( f t ) ( f t ) k / L ( l b - f t ) ( f t ) ( f t) ( l b - f t ) ( l b - f t ) ( l b - f t ) ( l b s 2 No s h e a r w a l l s i n g r i d B a t 2 n d l e v e l 71 5 f r o m g r i d A a b o v e 1 20 9 0 2 8 0 5 3 4 . 0 8 3 P 1 - 6 B - 1 1 1 . 0 9 0 . 8 2 8 1 6 8 9 5 4 8 5 1 3 3 1 7 3 3 1 7 30 2 HD U 2 B- 2 2 3 . 0 9 0 . 3 9 1 7 0 7 8 9 5 2 1 7 3 5 - 4 6 5 8 - 4 6 5 8 -2 0 3 no t r q d Bo l d i n d i c a t e s t h a t s e i s m i c g o v e r n s te c i n s t r u c t L L C Pr o j e c t : R o b i n e t t P l a n 3 0 8 3 Gr i d C W i n d Sh e a r d e s i g n O v e r t u r n i n g Le v e l S h e a r S h e a r L e n g t h S h e a r S W P a n e l L h A s p e c t M o t W a l l R / Fl M r e s M t o t M t o t U p l i f t H W st o r y a c c t o t a l u n i f o r m T y p e Ra t i o t r i b . H t r i b . L R e s t r . a c c T V ( l b s ) V ( l b s ) L ( f t ) v ( p l f ) ( f t ) ( f t ) k / L ( l b - f t ) ( f t ) ( f t) ( l b - f t ) ( l b - f t ) ( l b - f t ) ( l b s 2 46 2 0 4 6 2 0 5 1 . 0 91 P 1 - 6 C- 1 p 1 9 . 0 9 0 . 4 7 1 5 4 9 1 9 2 1 1 6 0 0 3 8 9 1 3 8 9 1 20 5 MS T C 4 8 B 3 C- 2 p 1 7 . 0 9 0 . 5 3 1 3 8 6 0 9 2 9 2 5 7 4 6 0 4 4 6 0 4 27 1 MS T 3 7 C - 3 p 1 4 . 0 9 0 . 6 4 1 1 4 1 4 9 2 6 2 3 7 5 1 7 7 5 1 7 7 37 0 MS T 3 7 1 19 8 0 6 6 0 0 4 7 . 0 14 0 P 1 - 6 C- 1 4 . 5 9 2 5 6 8 7 9 5 7 5 6 4 9 3 1 8 8 2 2 19 6 1 HD U 2 P1 - 3 C- 2 p 1 7 . 0 9 0 . 5 3 2 1 4 8 5 9 5 1 1 7 8 1 9 7 0 4 1 4 3 0 8 84 2 HD U 2 P1 - 3 C- 3 p 1 4 . 0 9 0 . 6 4 1 7 6 9 4 9 5 7 9 3 8 9 7 5 6 1 4 9 3 3 10 6 7 HD U 2 Bo l d i n d i c a t e s t h a t w i n d g o v e r n s p p e r f o r a t e d p a n e l Pa n e l U n i t h o p / Σ L i L S h e a t h i n g C o q ' N a i l i n g Sh e a r h t o t a l t o t a l f r o m ΣL i / L SD P W S (p l f ) v ( p l f ) ( f t ) ( f t ) % 4 . 3 . 3 . 5 C- 1 2 n d 91 h / 2 1 1 1 9 5 8 0 . 8 2 19 2 P1 - 6 C- 2 2 n d 91 h / 2 1 3 1 7 7 6 0 . 8 9 13 4 P1 - 6 C- 3 2 n d 91 h / 2 8 1 4 5 7 0 . 8 2 19 4 P1 - 6 C- 2 2 n d 14 0 2 h / 3 7 1 7 4 1 0 . 6 3 54 0 P1 - 3 C- 3 2 n d 14 0 2 h / 3 7 1 4 5 0 0 . 6 7 41 8 P1 - 3 te c i n s t r u c t L L C Pr o j e c t : R o b i n e t t P l a n 3 0 8 3 Gr i d C S e i s m i c Sh e a r d e s i g n O v e r t u r n i n g Le v e l S h e a r S h e a r L e n g t h S h e a r S W P a n e l L h A s p e c t M o t W a l l R / Fl M r e s M t o t M t o t U p l i f t H W st o r y a c c t o t a l u n i f o r m T y p e Ra t i o t r i b . H t r i b . L R e s t r . a c c T V ( l b s ) V ( l b s ) L ( f t ) v ( p l f ) ( f t ) ( f t ) k / L ( l b - f t ) ( f t ) ( f t) ( l b - f t ) ( l b - f t ) ( l b - f t ) ( l b s 2 35 7 0 3 5 7 0 5 1 . 0 7 0 P 1 - 6 C - 1 p 1 9 . 0 9 0 . 4 7 1 1 9 7 0 9 2 1 1 6 0 0 3 7 1 3 7 1 20 MS T C 4 8 B 3 C- 2 p 1 7 . 0 9 0 . 5 3 1 0 7 1 0 9 2 9 2 5 7 1 4 5 4 1 4 5 4 86 MS T 3 7 C - 3 p 1 4 . 0 9 0 . 6 4 8 8 2 0 9 2 6 2 3 7 2 5 8 3 2 5 8 3 18 5 MS T 3 7 1 10 4 5 4 6 1 5 4 7 . 0 9 8 P 1 - 6 C - 1 4 . 5 9 2 3 9 7 7 9 5 7 5 6 3 2 2 1 3 5 9 1 79 8 HD U 2 P1 - 3 C - 2 p 1 7 . 0 9 0 . 5 3 1 5 0 2 3 9 5 1 1 7 8 1 3 2 4 2 4 6 9 6 27 6 HD U 2 P1 - 3 C- 3 p 1 4 . 0 9 0 . 6 4 1 2 3 7 2 9 5 7 9 3 8 4 4 3 4 7 0 1 7 50 1 HD U 2 Bo l d i n d i c a t e s t h a t s e i s m i c g o v e r n s p p e r f o r a t e d p a n e l Pa n e l U n i t h o p / Σ L i L S h e a t h i n g C o q ' N a i l i n g Sh e a r h t o t a l t o t a l f r o m ΣL i / L SD P W S (p l f ) v ( p l f ) ( f t ) ( f t ) % 4 . 3 . 3 . 5 C- 1 2 n d 70 h / 2 1 1 1 9 5 8 0 . 8 2 1 4 7 P1 - 6 C- 2 2 n d 70 h / 2 1 3 1 7 7 6 0 . 8 9 1 0 3 P1 - 6 C- 3 2 n d 70 h / 2 8 1 4 5 7 0 . 8 2 1 4 9 P1 - 6 C- 2 2 n d 98 2 h / 3 7 1 7 4 1 0 . 6 3 3 7 8 P1 - 3 C- 3 2 n d 98 2 h / 3 7 1 4 5 0 0 . 6 7 2 9 3 P1 - 3 te c i n s t r u c t L L C tecinstruct LLC 4111 164th St SW Unit 51 Lynnwood, WA 98087 Phone (206) 553 9076 rheimisch@yahoo.com Engineering 2. GRAVITY DESIGN Project: Robinett Homes, Plan 3038 tecinstruct LLC 2.1 Design Criteria Dead Loads Roof Coating/Waterproofing 2.0 Sheathing OSB/Plywood 15/32“ 2.0 Trusses / Framing 3.0 Insulation R-38 1.2 Gypsum Board 5/8“ 2.8 Miscellaneous (Sprinkler, HVAC etc) 1.5 Total 12.5, say 15 psf Floors Living Finished Floor (carpet) 1.0 Sheathing OSB/Plywood 3/4“ 2.5 Floor Joists / TJIs 2.5 Insulation R-11 1.0 Gypsum Board 5/8“ 2.8 Miscellaneous (Sprinkler, HVAC etc) 1.5 Non bearing partitions 8.0 Total 19.3, say 20 psf Decks/Balconies Decking 3.0 Floor Joists / TJIs 2.5 Miscellaneous (Railing/Waterproofing) 1.5 Total 7.0 say 10 psf Ext. Walls Siding 3.0 Sheathing 15/32“ OSB/Plywood 2.0 2x6“ Studs @ 16“ o.c. 1.5 Insulation R-21 0.6 Gypsum Board 5/8“ 2.8 Total 9.9, say 10 psf Int. Walls 2x4“ Studs @ 16“ o.c. 1.5 Gypsum Board (2 sides) 5/8“ 5.6 Total 7.1, say 8 psf Live Loads Roof 20 psf Living areas 40 psf Decks/Balconies 60 psf Snow Load Snow Ground Load 38 psf Snow Roof Load (no reduction applied) 38 psf Project: Robinett Homes, Plan 3038 tecinstruct LLC 2.2 Key List Roof Key No. 1.1 Manufactured Truss Roof Key No. 1.2 Overframing, HF No. 2, 2x6”, @ 24” o.c. Key No. 1.3 Header, DF No. 2, 4x12” Key No. 1.4 Header, DF No. 2, 4x10” Key No. 1.5 Header, DF No. 2, 4x8” Key No. 1.6 Header, DF No. 2, 4x6” Floor above Main Level Key No. 2.1 Manufactured Truss Roof above Garage and Porch Key No. 2.2 TJI 230, 2-5/16x11-7/8”, @ 16” o.c. (Alternative: HF No. 2, 2x12”, @ 16” o.c.) Key No. 2.3 Stair Stringers, HF No. 2, 2x12”, @ 16” o.c. Key No. 2.4 Landing Joists, HF No. 2, 2x6”, @ 16” o.c. Key No. 2.5 Glulam WS, flush, 24F-1.8E, 5-1/8x25-/12” Key No. 2.6 Glulam WS, flush, 24F-1.8E, 5-1/8x12” Key No. 2.7 Beam, flush, 4x12” Key No. 2.8 Garage Header, DF No. 2, 6x12” Key No. 2.9 Beam, DF No. 2. 6x12” Key No. 2.10 Beam, DF No. 2. 6x12” Key No. 2.11 Header, DF No. 2, 6x12” Key No. 2.12 Header, DF No. 2, 4x10” Key No. 2.13 Header, DF No. 2, 4x6” Key No. 2.15 Post at Porch, HF No. 2, 6x6”, P.T. Key No. 2.14 Post, DF No. 2, 6x6” Key No. 2.15 Post at Porch, HF No. 2, 6x6”, P.T. Framing above Crawl Space Key No. 3.1 TJI 230, 2-5/16x11-7/8”, @ 16” o.c. (Alternative HF No. 2, 2x12”, @ 16” o.c.) Key No. 3.2 Beam, DF No. 2, 4x10” Foundation Key No. 4.1 Continuous Footing, fc = 2,500 psi, 16x8”, w/ Stem Wall 8” Key No. 4.2 Pad Footing, fc = 2,500 psi, 42x42x12” Key No. 4.3 Pad Footing, fc = 2,500 psi, 30x30x12” Key No. 4.4 Pad Footing, fc = 2,500 psi, 24x24x12” Project: Robinett Homes, Plan 3038 tecinstruct LLC 2.3 Roof Key No. 1.1 Manufactured Truss Roof Span: L = varies Load: DL = 15 psf SL = 38 psf Layout and design per manufacturer Key No. 1.2 Overframing, HF No. 2, 2x6”, @ 24” o.c. Per span tables Key No. 1.3 Header, DF No. 2, 4x12” Span: L = 8 ft Load: roof w/ trib 15 ft DL 15 x 15 = 225 plf SL 15 x 38 = 570 plf For calculation see design sheets. Key No. 1.4 Header, DF No. 2, 4x10” Span: L = 6 ft Load: roof w/ trib 17 ft DL 17 x 15 = 255 plf SL 17 x 38 = 650 plf For calculation see design sheets. Key No. 1.5 Header, DF No. 2, 4x8” Span: max L = 8 ft Load: roof w/ trib 3 ft DL 3 x 15 = 45 plf SL 3 x 38 = 120 plf For calculation see design sheets. Key No. 1.6 Header, DF No. 2, 4x6” Span: L = 2.5 ft Load: roof w/ trib 15 ft DL 15 x 15 = 225 plf SL 15 x 38 = 570 plf For calculation see design sheets. Project: Robinett Homes, Plan 3038 tecinstruct LLC 2.4 Floor above Main Level Key No. 2.1 Manufactured Truss Roof above Garage and Porch Span: L = varies Load: DL = 15 psf SL = 38 psf Layout and design per manufacturer Key No. 2.2 TJI 230, 2-5/16x11-7/8”, @ 16” o.c. (Alternative: HF No. 2, 2x12”, @ 16” o.c.) Span: L = 18 ft Loads: DL = 20 psf LL = 40 psf Per iLevel span tables for deflection L/480 For HF, see design sheets Key No. 2.3 Stair Stringers, HF No. 2, 2x12”, @ 16” o.c. Span: L = 6 ft Loads: DL = 20 psf LL = 40 psf Per span tables Key No. 2.4 Landing Joists, HF No. 2, 2x6”, @ 16” o.c. Span: L = 6 ft Loads: DL = 20 psf LL = 40 psf Per span tables Key No. 2.5 Glulam WS, flush, 24F-1.8E, 5-1/8x25-/12” Span: L = 23 ft Loads: upper roof w/ trib 20 ft, lower roof w/ trib 3 ft, floor w/ trib 8 ft, wall w/ h 8 ft DL 23 x 15 + 8 x 20 + 8 x 10 = 585 plf LL 8 x 40 = 320 plf SL 23 x 38 = 875 plf For calculation see design sheets Key No. 2.6 Glulam WS, flush, 24F-1.8E, 5-1/8x12” Span: L = 16 ft Loads: floor w/ trib 12 ft DL 12 x 20 = 240 plf LL 12 x 40 = 480 plf For calculation see design sheets Project: Robinett Homes, Plan 3038 tecinstruct LLC Key No. 2.7 Beam, flush, 4x12” Span: L = 7 ft Loads: floor w/ trib 14 ft DL 14 x 20 = 280 plf LL 14 x 40 = 560 plf For calculation see design sheets Key No. 2.8 Garage Header, DF No. 2, 6x12” Span: L = 16 ft Loads: lower roof w/ trib 4 ft DL 4 x 15 = 60 plf SL 4 x 38 = 160 plf For calculation see design sheets Key No. 2.9 Beam, DF No. 2. 6x12” Span: L = 16 ft Loads: roof w/ trib 6 ft DL 6 x 15 = 90 plf SL 6 x 38 = 230 plf For calculation see design sheets 1% excess in stress is still within the intent of the design. Key No. 2.10 Beam, DF No. 2. 6x12” Span: L = 13 ft Loads: roof w/ trib 3 ft, floor w/ trib 3 ft, wall w/ h 8 ft DL 3 x 15 + 3 x 20 + 8 x 10 = 185 plf LL 3 x 40 = 120 plf SL 3 x 38 = 120 plf For calculation see design sheets 1% excess in stress is still within the intent of the design. Key No. 2.11 Header, DF No. 2, 6x12” Span: L = 6 ft Loads: upper roof w/ trib 15 ft, lower roof w/ trib 6 ft, floor w/ trib 10 ft, wall w/ h 8 ft DL 21 x 15 + 10 x 20 + 8 x 10 = 595 plf DL 10 x 40 = 400 plf SL 23 x 38 = 875 plf For calculation see design sheets Key No. 2.12 Header, DF No. 2, 4x10” Span: L = 7 ft Loads: roof w/ trib 2 ft, floor w/ trib 8 ft, wall w/ h 8 ft DL 2 x 15 + 8 x 20 + 8 x 10 = 270 plf DL 8 x 40 = 320 plf SL 2 x 38 = 80 plf For calculation see design sheets Project: Robinett Homes, Plan 3038 tecinstruct LLC Key No. 2.13 Header, DF No. 2, 4x6” Span: L = 5 ft Loads: roof w/ trib 2 ft, floor w/ trib 3 ft, wall w/ h 8 ft DL 2 x 15 + 3 x 20 + 8 x 10 = 170 plf DL 3 x 40 = 120 plf SL 2 x 38 = 80 plf For calculation see design sheets. Also used for shorter spans. Key No. 2.14 Post, DF No. 2, 6x6” Height: H = 9 ft Load: reaction from beam 2.5 PDL = 6,855 lbs PLL = 10,500 lbs For calculation see design sheets. 3% overstress is still within the intent of the design. Key No. 2.15 Post at Porch, HF No. 2, 6x6”, P.T. Height: H = 9 ft Load: reaction from beam 2.9 PDL = 725 lbs PLL = 1,850 lbs Per inspection. Also used at front porch with less load. Project: Robinett Homes, Plan 3038 tecinstruct LLC 2.5 Crawl Space Key No. 3.1 TJI 230, 2-5/16x11-7/8”, @ 16” o.c. (Alternative HF No. 2, 2x12”, @ 16” o.c.) Span: L = 18 ft Loads: DL = 20 psf LL = 40 psf Same as 2.2 Key No. 3.2 Beam, DF No. 2, 4x10” Max uniform load under load bearing wall Span: L Continuous over several posts, >> designed as 3-span beam = 4 + 4 + 4 ft Load: (2) floors w/ tot trib 30 ft, wall w/ h 16 ft DL 30 x 20 + 16 x 10 = 760 plf LL 30 x 40 = 1,200 plf For calculation see design sheets Project: Robinett Homes, Plan 3038 tecinstruct LLC 2.6 Foundation Key No. 4.1 Continuous Footing, fc = 2,500 psi, 16x8”, w/ Stem Wall 8” Dimensions per prescriptive requirements Reinforcement: (2) rebars # 4 longitudinal hooked verticals # 3 @ 18” o.c., alternated Key No. 4.2 Pad Footing, fc = 2,500 psi, 42x42x12” Load from post 2.14 P = 17,355 lbs Soil pressure 17,355 / 12.25 = 1,417 psf < 1,500 Rebars # 4 @ 6” o.c. each way Key No. 4.3 Pad Footing, fc = 2,500 psi, 30x30x12” Load reaction from (1.5x) beam 2.10 P 1.5 x 2,385 = 3,580 lbs Soil pressure 2,575 / 4 = 530 psf < 1,500 Rebars # 4 @ 6” o.c. each way Key No. 4.4 Pad Footing, fc = 2,500 psi, 24x24x12” Load max P from post 2.15 P = 2,575 lbs Soil pressure 2,575 / 4 = 644 psf < 1,500 Rebars # 4 @ 6” o.c. each way Robinett Plan 3083 1_3 Header Aug. 4, 2022 14:22 Design Check Calculation Sheet WoodWorks Sizer 2019 (Update 4) Loads: Load Type Distribution Pat- Location [ft] Magnitude Unit tern Start End Start End DL Dead Full UDL 225.0 plf SL Snow Full UDL 570.0 plf Maximum Reactions (lbs), Bearing Capacities (lbs) and Bearing Lengths (in) : 8'-1.48" 8'0' Unfactored: Dead 914 914 Snow 2315 2315 Factored: Total 3229 3229 Bearing: Capacity Beam 3229 3229 Support 3575 3575 Des ratio Beam 1.00 1.00 Support 0.90 0.90 Load comb #2 #2 Length 1.48 1.48 Min req'd 1.48 1.48 Cb 1.00 1.00 Cb min 1.00 1.00 Cb support 1.11 1.11 Fcp sup 625 625 Lumber-soft, D.Fir-L (N), No.1/No.2, 4x12 (3-1/2"x11-1/4") Supports: All - Timber-soft Beam, D.Fir-L (N) No.2 Total length: 8'-1.5"; Clear span: 7'-10.5"; Volume = 2.2 cu.ft. Lateral support: top = at supports, bottom = at supports; This section PASSES the design code check. Analysis vs. Allowable Stress and Deflection using NDS 2018 : Criterion Analysis Value Design Value Unit Analysis/Design Shear fv = 91 Fv' = 207 psi fv/Fv' = 0.44 Bending(+) fb = 1034 Fb' = 1056 psi fb/Fb' = 0.98 Dead Defl'n 0.03 = < L/999 Live Defl'n 0.08 = < L/999 0.27 = L/360 in 0.30 Total Defl'n 0.11 = L/870 0.40 = L/240 in 0.28 WoodWorks® Sizer SOFTWARE FOR WOOD DESIGN WoodWorks® Sizer 2019 (Update 4)1_3 Header Page 2 Additional Data: FACTORS: F/E(psi) CD CM Ct CL CF Cfu Cr Cfrt Ci LC# Fv' 180 1.15 1.00 1.00 - - - - 1.00 1.00 2 Fb'+ 850 1.15 1.00 1.00 0.982 1.100 - 1.00 1.00 1.00 2 Fcp' 625 - 1.00 1.00 - - - - 1.00 1.00 - E' 1.6 million 1.00 1.00 - - - - 1.00 1.00 2 Emin' 0.58 million 1.00 1.00 - - - - 1.00 1.00 2 CRITICAL LOAD COMBINATIONS: Shear : LC #2 = D + S Bending(+): LC #2 = D + S Deflection: LC #2 = D + S (live) LC #2 = D + S (total) Bearing : Support 1 – LC #2 = D + S Support 2 – LC #2 = D + S D=dead S=snow All LC's are listed in the Analysis output Load combinations: ASD Basic from ASCE 7-16 2.4 / IBC 2018 1605.3.1 CALCULATIONS: V max = 3180, V design = 2386 lbs; M(+) = 6360 lbs-ft EIy = 664.44 lb-in^2 "Live" deflection is due to all non-dead loads (live, wind, snow…) Total deflection = 1.0 dead + "live" Lateral stability(+): Lu = 8' Le = 15'-10.25" RB = 13.2 Design Notes: 1. Analysis and design are in accordance with the ICC International Building Code (IBC 2018) and the National Design Specification (NDS 2018), using Allowable Stress Design (ASD). Design values are from the NDS Supplement. 2. Please verify that the default deflection limits are appropriate for your application. 3. Sawn lumber bending members shall be laterally supported according to the provisions of NDS Clause 4.4.1. Robinett Plan 3083 1_4 Header Aug. 4, 2022 14:24 Design Check Calculation Sheet WoodWorks Sizer 2019 (Update 4) Loads: Load Type Distribution Pat- Location [ft] Magnitude Unit tern Start End Start End DL Dead Full UDL 255.0 plf SL Snow Full UDL 650.0 plf Maximum Reactions (lbs), Bearing Capacities (lbs) and Bearing Lengths (in) : 6'-1.26" 6'0' Unfactored: Dead 778 778 Snow 1984 1984 Factored: Total 2763 2763 Bearing: Capacity Beam 2763 2763 Support 3059 3059 Des ratio Beam 1.00 1.00 Support 0.90 0.90 Load comb #2 #2 Length 1.26 1.26 Min req'd 1.26 1.26 Cb 1.00 1.00 Cb min 1.00 1.00 Cb support 1.11 1.11 Fcp sup 625 625 Lumber-soft, D.Fir-L (N), No.1/No.2, 4x10 (3-1/2"x9-1/4") Supports: All - Timber-soft Beam, D.Fir-L (N) No.2 Total length: 6'-1.25"; Clear span: 5'-10.75"; Volume = 1.4 cu.ft. Lateral support: top = at supports, bottom = at supports; This section PASSES the design code check. WoodWorks® Sizer SOFTWARE FOR WOOD DESIGN WoodWorks® Sizer 2019 (Update 4)1_4 Header Page 2 Analysis vs. Allowable Stress and Deflection using NDS 2018 : Criterion Analysis Value Design Value Unit Analysis/Design Shear fv = 91 Fv' = 207 psi fv/Fv' = 0.44 Bending(+) fb = 979 Fb' = 1160 psi fb/Fb' = 0.84 Dead Defl'n 0.02 = < L/999 Live Defl'n 0.05 = < L/999 0.20 = L/360 in 0.26 Total Defl'n 0.07 = < L/999 0.30 = L/240 in 0.24 Additional Data: FACTORS: F/E(psi) CD CM Ct CL CF Cfu Cr Cfrt Ci LC# Fv' 180 1.15 1.00 1.00 - - - - 1.00 1.00 2 Fb'+ 850 1.15 1.00 1.00 0.989 1.200 - 1.00 1.00 1.00 2 Fcp' 625 - 1.00 1.00 - - - - 1.00 1.00 - E' 1.6 million 1.00 1.00 - - - - 1.00 1.00 2 Emin' 0.58 million 1.00 1.00 - - - - 1.00 1.00 2 CRITICAL LOAD COMBINATIONS: Shear : LC #2 = D + S Bending(+): LC #2 = D + S Deflection: LC #2 = D + S (live) LC #2 = D + S (total) Bearing : Support 1 – LC #2 = D + S Support 2 – LC #2 = D + S D=dead S=snow All LC's are listed in the Analysis output Load combinations: ASD Basic from ASCE 7-16 2.4 / IBC 2018 1605.3.1 CALCULATIONS: V max = 2715, V design = 1970 lbs; M(+) = 4073 lbs-ft EIy = 369.34 lb-in^2 "Live" deflection is due to all non-dead loads (live, wind, snow…) Total deflection = 1.0 dead + "live" Lateral stability(+): Lu = 6' Le = 12'-1.13" RB = 10.5 Design Notes: 1. Analysis and design are in accordance with the ICC International Building Code (IBC 2018) and the National Design Specification (NDS 2018), using Allowable Stress Design (ASD). Design values are from the NDS Supplement. 2. Please verify that the default deflection limits are appropriate for your application. 3. Sawn lumber bending members shall be laterally supported according to the provisions of NDS Clause 4.4.1. Robinett Plan 3083 1_6 Header Aug. 4, 2022 14:32 Design Check Calculation Sheet WoodWorks Sizer 2019 (Update 4) Loads: Load Type Distribution Pat- Location [ft] Magnitude Unit tern Start End Start End DL Dead Full UDL 225.0 plf SL Snow Full UDL 570.0 plf Maximum Reactions (lbs), Bearing Capacities (lbs) and Bearing Lengths (in) : 2'-6.5" 2'-6"0' Unfactored: Dead 286 286 Snow 724 724 Factored: Total 1010 1010 Bearing: Capacity Beam 1094 1094 Support 1211 1211 Des ratio Beam 0.92 0.92 Support 0.83 0.83 Load comb #2 #2 Length 0.50* 0.50* Min req'd 0.50* 0.50* Cb 1.00 1.00 Cb min 1.00 1.00 Cb support 1.11 1.11 Fcp sup 625 625 *Minimum bearing length setting used: 1/2" for end supports Lumber-soft, D.Fir-L (N), No.1/No.2, 4x6 (3-1/2"x5-1/2") Supports: All - Timber-soft Beam, D.Fir-L (N) No.2 Total length: 2'-6.5"; Clear span: 2'-5.5"; Volume = 0.3 cu.ft. Lateral support: top = at supports, bottom = at supports; This section PASSES the design code check. WoodWorks® Sizer SOFTWARE FOR WOOD DESIGN WoodWorks® Sizer 2019 (Update 4)1_6 Header Page 2 Analysis vs. Allowable Stress and Deflection using NDS 2018 : Criterion Analysis Value Design Value Unit Analysis/Design Shear fv = 48 Fv' = 207 psi fv/Fv' = 0.23 Bending(+) fb = 422 Fb' = 1271 psi fb/Fb' = 0.33 Dead Defl'n 0.00 = < L/999 Live Defl'n 0.01 = < L/999 0.08 = L/360 in 0.08 Total Defl'n 0.01 = < L/999 0.13 = L/240 in 0.07 Additional Data: FACTORS: F/E(psi) CD CM Ct CL CF Cfu Cr Cfrt Ci LC# Fv' 180 1.15 1.00 1.00 - - - - 1.00 1.00 2 Fb'+ 850 1.15 1.00 1.00 1.000 1.300 - 1.00 1.00 1.00 2 Fcp' 625 - 1.00 1.00 - - - - 1.00 1.00 - E' 1.6 million 1.00 1.00 - - - - 1.00 1.00 2 CRITICAL LOAD COMBINATIONS: Shear : LC #2 = D + S Bending(+): LC #2 = D + S Deflection: LC #2 = D + S (live) LC #2 = D + S (total) Bearing : Support 1 – LC #2 = D + S Support 2 – LC #2 = D + S D=dead S=snow All LC's are listed in the Analysis output Load combinations: ASD Basic from ASCE 7-16 2.4 / IBC 2018 1605.3.1 CALCULATIONS: V max = 994, V design = 613 lbs; M(+) = 621 lbs-ft EIy = 77.64 lb-in^2 "Live" deflection is due to all non-dead loads (live, wind, snow…) Total deflection = 1.0 dead + "live" Design Notes: 1. Analysis and design are in accordance with the ICC International Building Code (IBC 2018) and the National Design Specification (NDS 2018), using Allowable Stress Design (ASD). Design values are from the NDS Supplement. 2. Please verify that the default deflection limits are appropriate for your application. 3. Sawn lumber bending members shall be laterally supported according to the provisions of NDS Clause 4.4.1. Robinett Plan 3083 2_2 Floor Joist Aug. 4, 2022 14:54 Design Check Calculation Sheet WoodWorks Sizer 2019 (Update 4) Loads: Load Type Distribution Pat- Location [ft] Magnitude Unit tern Start End Start End DL Dead Full Area 20.00(16.0") psf LL Live Full UDL 40.0 plf Maximum Reactions (lbs), Bearing Capacities (lbs) and Bearing Lengths (in) : 18'-0.99" 18'0' Unfactored: Dead 241 241 Live 362 362 Factored: Total 603 603 Bearing: Capacity Joist 603 603 Support 1163 1163 Des ratio Joist 1.00 1.00 Support 0.52 0.52 Load comb #2 #2 Length 0.99 0.99 Min req'd 0.99 0.99 Cb 1.00 1.00 Cb min 1.00 1.00 Cb support 1.25 1.25 Fcp sup 625 625 Lumber-soft, Hem-Fir (N), No.1/No.2, 2x12 (1-1/2"x11-1/4") Supports: All - Timber-soft Beam, D.Fir-L (N) No.2 Floor joist spaced at 16.0" c/c; Total length: 18'-1.0"; Clear span: 17'-11.0"; Volume = 2.1 cu.ft. Lateral support: top = continuous, bottom = at supports; Repetitive factor: applied where permitted (refer to online help); This section PASSES the design code check. Analysis vs. Allowable Stress and Deflection using NDS 2018 : Criterion Analysis Value Design Value Unit Analysis/Design Shear fv = 48 Fv' = 145 psi fv/Fv' = 0.33 Bending(+) fb = 1024 Fb' = 1150 psi fb/Fb' = 0.89 Dead Defl'n 0.11 = < L/999 Live Defl'n 0.33 = L/651 0.60 = L/360 in 0.55 Total Defl'n 0.44 = L/488 0.90 = L/240 in 0.49 WoodWorks® Sizer SOFTWARE FOR WOOD DESIGN WoodWorks® Sizer 2019 (Update 4)2_2 Floor Joist Page 2 Additional Data: FACTORS: F/E(psi) CD CM Ct CL CF Cfu Cr Cfrt Ci LC# Fv' 145 1.00 1.00 1.00 - - - - 1.00 1.00 2 Fb'+ 1000 1.00 1.00 1.00 1.000 1.000 - 1.15 1.00 1.00 2 Fcp' 405 - 1.00 1.00 - - - - 1.00 1.00 - E' 1.6 million 1.00 1.00 - - - - 1.00 1.00 2 Emin' 0.58 million 1.00 1.00 - - - - 1.00 1.00 2 CRITICAL LOAD COMBINATIONS: Shear : LC #2 = D + L Bending(+): LC #2 = D + L Deflection: LC #2 = D + L (live) LC #2 = D + L (total) Bearing : Support 1 – LC #2 = D + L Support 2 – LC #2 = D + L D=dead L=live All LC's are listed in the Analysis output Load combinations: ASD Basic from ASCE 7-16 2.4 / IBC 2018 1605.3.1 CALCULATIONS: V max = 600, V design = 535 lbs; M(+) = 2700 lbs-ft EIy = 284.76 lb-in^2 "Live" deflection is due to all non-dead loads (live, wind, snow…) Total deflection = 0.5 dead + "live" Design Notes: 1. Analysis and design are in accordance with the ICC International Building Code (IBC 2018) and the National Design Specification (NDS 2018), using Allowable Stress Design (ASD). Design values are from the NDS Supplement. 2. Please verify that the default deflection limits are appropriate for your application. 3. Sawn lumber bending members shall be laterally supported according to the provisions of NDS Clause 4.4.1. Robinett Plan 3083 2_5 GLB Aug. 4, 2022 15:07 Design Check Calculation Sheet WoodWorks Sizer 2019 (Update 4) Loads: Load Type Distribution Pat- Location [ft] Magnitude Unit tern Start End Start End DL Dead Full UDL 585.0 plf LL Live Full UDL 320.0 plf SL Snow Full UDL 875.0 plf Maximum Reactions (lbs), Bearing Capacities (lbs) and Bearing Lengths (in) : 23'-5.21" 23'0' Unfactored: Dead 6854 6854 Live 3749 3749 Snow 10252 10252 Factored: Total 17356 17356 Bearing: Capacity Beam 17356 17356 Support 17910 17910 Des ratio Beam 1.00 1.00 Support 0.97 0.97 Load comb #3 #3 Length 5.21 5.21 Min req'd 5.21 5.21 Cb 1.00 1.00 Cb min 1.00 1.00 Cb support 1.07 1.07 Fcp sup 625 625 Glulam-Unbalan., West Species, 24F-1.8E WS, 5-1/8"x25-1/2" Supports: All - Timber-soft Beam, D.Fir-L (N) No.2 Total length: 23'-5.19"; Clear span: 22'-6.81"; Volume = 21.3 cu.ft.; 17 laminations, 5-1/8" maximum width, Lateral support: top = continuous, bottom = at supports; This section PASSES the design code check. WoodWorks® Sizer SOFTWARE FOR WOOD DESIGN WoodWorks® Sizer 2019 (Update 4)2_5 GLB Page 2 Analysis vs. Allowable Stress and Deflection using NDS 2018 : Criterion Analysis Value Design Value Unit Analysis/Design Shear fv = 156 Fv' = 305 psi fv/Fv' = 0.51 Bending(+) fb = 2116 Fb' = 2536 psi fb/Fb' = 0.83 Dead Defl'n 0.29 = L/955 Live Defl'n 0.44 = L/623 0.77 = L/360 in 0.58 Total Defl'n 0.73 = L/377 1.15 = L/240 in 0.64 Additional Data: FACTORS: F/E(psi) CD CM Ct CL CV Cfu Cr Cfrt Notes Cvr LC# Fv' 265 1.15 1.00 1.00 - - - - 1.00 1.00 1.00 3 Fb'+ 2400 1.15 1.00 1.00 1.000 0.919 - - 1.00 1.00 - 3 Fcp' 650 - 1.00 1.00 - - - - 1.00 - - - E' 1.8 million 1.00 1.00 - - - - 1.00 - - 3 Eminy' 0.85 million 1.00 1.00 - - - - 1.00 - - 3 CRITICAL LOAD COMBINATIONS: Shear : LC #3 = D + 0.75(L + S) Bending(+): LC #3 = D + 0.75(L + S) Deflection: LC #3 = D + 0.75(L + S) (live) LC #3 = D + 0.75(L + S) (total) Bearing : Support 1 – LC #3 = D + 0.75(L + S) Support 2 – LC #3 = D + 0.75(L + S) D=dead L=live S=snow All LC's are listed in the Analysis output Load combinations: ASD Basic from ASCE 7-16 2.4 / IBC 2018 1605.3.1 CALCULATIONS: V max = 17034, V design = 13565 lbs; M(+) = 97948 lbs-ft EIy = 12746 lb-in^2 "Live" deflection is due to all non-dead loads (live, wind, snow…) Total deflection = 0.5 dead + "live" Design Notes: 1. Analysis and design are in accordance with the ICC International Building Code (IBC 2018) and the National Design Specification (NDS 2018), using Allowable Stress Design (ASD). Design values are from the NDS Supplement. 2. Please verify that the default deflection limits are appropriate for your application. 3. Glulam design values are for materials conforming to ANSI 117-2015 and manufactured in accordance with ANSI A190.1-2012 4. GLULAM: bxd = actual breadth x actual depth. 5. Glulam Beams shall be laterally supported according to the provisions of NDS Clause 3.3.3. 6. GLULAM: bearing length based on smaller of Fcp(tension), Fcp(comp'n). Robinett Plan 3083 2_6 GLB Aug. 4, 2022 15:16 Design Check Calculation Sheet WoodWorks Sizer 2019 (Update 4) Loads: Load Type Distribution Pat- Location [ft] Magnitude Unit tern Start End Start End DL Dead Full UDL 240.0 plf LL Live Full UDL 480.0 plf Maximum Reactions (lbs), Bearing Capacities (lbs) and Bearing Lengths (in) : 16'-1.74" 16'0' Unfactored: Dead 1937 1937 Live 3875 3875 Factored: Total 5812 5812 Bearing: Capacity Beam 5812 5812 Support 5998 5998 Des ratio Beam 1.00 1.00 Support 0.97 0.97 Load comb #2 #2 Length 1.74 1.74 Min req'd 1.74 1.74 Cb 1.00 1.00 Cb min 1.00 1.00 Cb support 1.07 1.07 Fcp sup 625 625 Glulam-Unbalan., West Species, 24F-1.8E WS, 5-1/8"x12" Supports: All - Timber-soft Beam, D.Fir-L (N) No.2 Total length: 16'-1.75"; Clear span: 15'-10.25"; Volume = 6.9 cu.ft.; 8 laminations, 5-1/8" maximum width, Lateral support: top = continuous, bottom = at supports; This section PASSES the design code check. Analysis vs. Allowable Stress and Deflection using NDS 2018 : Criterion Analysis Value Design Value Unit Analysis/Design Shear fv = 122 Fv' = 265 psi fv/Fv' = 0.46 Bending(+) fb = 2248 Fb' = 2400 psi fb/Fb' = 0.94 Dead Defl'n 0.13 = < L/999 Live Defl'n 0.53 = L/360 0.53 = L/360 in 1.00 Total Defl'n 0.67 = L/288 0.80 = L/240 in 0.83 WoodWorks® Sizer SOFTWARE FOR WOOD DESIGN WoodWorks® Sizer 2019 (Update 4)2_6 GLB Page 2 Additional Data: FACTORS: F/E(psi) CD CM Ct CL CV Cfu Cr Cfrt Notes Cvr LC# Fv' 265 1.00 1.00 1.00 - - - - 1.00 1.00 1.00 2 Fb'+ 2400 1.00 1.00 1.00 1.000 1.000 - - 1.00 1.00 - 2 Fcp' 650 - 1.00 1.00 - - - - 1.00 - - - E' 1.8 million 1.00 1.00 - - - - 1.00 - - 2 Eminy' 0.85 million 1.00 1.00 - - - - 1.00 - - 2 CRITICAL LOAD COMBINATIONS: Shear : LC #2 = D + L Bending(+): LC #2 = D + L Deflection: LC #2 = D + L (live) LC #2 = D + L (total) Bearing : Support 1 – LC #2 = D + L Support 2 – LC #2 = D + L D=dead L=live All LC's are listed in the Analysis output Load combinations: ASD Basic from ASCE 7-16 2.4 / IBC 2018 1605.3.1 CALCULATIONS: V max = 5760, V design = 4988 lbs; M(+) = 23040 lbs-ft EIy = 1328.38 lb-in^2 "Live" deflection is due to all non-dead loads (live, wind, snow…) Total deflection = 0.5 dead + "live" Design Notes: 1. Analysis and design are in accordance with the ICC International Building Code (IBC 2018) and the National Design Specification (NDS 2018), using Allowable Stress Design (ASD). Design values are from the NDS Supplement. 2. Please verify that the default deflection limits are appropriate for your application. 3. Glulam design values are for materials conforming to ANSI 117-2015 and manufactured in accordance with ANSI A190.1-2012 4. GLULAM: bxd = actual breadth x actual depth. 5. Glulam Beams shall be laterally supported according to the provisions of NDS Clause 3.3.3. 6. GLULAM: bearing length based on smaller of Fcp(tension), Fcp(comp'n). Robinett Plan 3083 2_7 Beam Aug. 4, 2022 15:42 Design Check Calculation Sheet WoodWorks Sizer 2019 (Update 4) Loads: Load Type Distribution Pat- Location [ft] Magnitude Unit tern Start End Start End DL Dead Full UDL 280.0 plf LL Live Full UDL 560.0 plf Maximum Reactions (lbs), Bearing Capacities (lbs) and Bearing Lengths (in) : 7'-1.37" 7'0' Unfactored: Dead 996 996 Live 1992 1992 Factored: Total 2988 2988 Bearing: Capacity Beam 2988 2988 Support 3308 3308 Des ratio Beam 1.00 1.00 Support 0.90 0.90 Load comb #2 #2 Length 1.37 1.37 Min req'd 1.37 1.37 Cb 1.00 1.00 Cb min 1.00 1.00 Cb support 1.11 1.11 Fcp sup 625 625 Lumber-soft, D.Fir-L (N), No.1/No.2, 4x12 (3-1/2"x11-1/4") Supports: All - Timber-soft Beam, D.Fir-L (N) No.2 Total length: 7'-1.38"; Clear span: 6'-10.63"; Volume = 1.9 cu.ft. Lateral support: top = continuous, bottom = at supports; This section PASSES the design code check. WoodWorks® Sizer SOFTWARE FOR WOOD DESIGN WoodWorks® Sizer 2019 (Update 4)2_7 Beam Page 2 Analysis vs. Allowable Stress and Deflection using NDS 2018 : Criterion Analysis Value Design Value Unit Analysis/Design Shear fv = 80 Fv' = 180 psi fv/Fv' = 0.45 Bending(+) fb = 836 Fb' = 935 psi fb/Fb' = 0.89 Dead Defl'n 0.01 = < L/999 Live Defl'n 0.05 = < L/999 0.23 = L/360 in 0.20 Total Defl'n 0.06 = < L/999 0.35 = L/240 in 0.16 Additional Data: FACTORS: F/E(psi) CD CM Ct CL CF Cfu Cr Cfrt Ci LC# Fv' 180 1.00 1.00 1.00 - - - - 1.00 1.00 2 Fb'+ 850 1.00 1.00 1.00 1.000 1.100 - 1.00 1.00 1.00 2 Fcp' 625 - 1.00 1.00 - - - - 1.00 1.00 - E' 1.6 million 1.00 1.00 - - - - 1.00 1.00 2 Emin' 0.58 million 1.00 1.00 - - - - 1.00 1.00 2 CRITICAL LOAD COMBINATIONS: Shear : LC #2 = D + L Bending(+): LC #2 = D + L Deflection: LC #2 = D + L (live) LC #2 = D + L (total) Bearing : Support 1 – LC #2 = D + L Support 2 – LC #2 = D + L D=dead L=live All LC's are listed in the Analysis output Load combinations: ASD Basic from ASCE 7-16 2.4 / IBC 2018 1605.3.1 CALCULATIONS: V max = 2940, V design = 2105 lbs; M(+) = 5145 lbs-ft EIy = 664.44 lb-in^2 "Live" deflection is due to all non-dead loads (live, wind, snow…) Total deflection = 0.5 dead + "live" Design Notes: 1. Analysis and design are in accordance with the ICC International Building Code (IBC 2018) and the National Design Specification (NDS 2018), using Allowable Stress Design (ASD). Design values are from the NDS Supplement. 2. Please verify that the default deflection limits are appropriate for your application. 3. Sawn lumber bending members shall be laterally supported according to the provisions of NDS Clause 4.4.1. Robinett Plan 3083 2_8 Garage Header Aug. 4, 2022 15:41 Design Check Calculation Sheet WoodWorks Sizer 2019 (Update 4) Loads: Load Type Distribution Pat- Location [ft] Magnitude Unit tern Start End Start End DL Dead Full UDL 60.0 plf SL Snow Full UDL 160.0 plf Maximum Reactions (lbs), Bearing Capacities (lbs) and Bearing Lengths (in) : 16'-0.51" 16'0' Unfactored: Dead 481 481 Snow 1283 1283 Factored: Total 1765 1765 Bearing: Capacity Beam 1765 1765 Support 1885 1885 Des ratio Beam 1.00 1.00 Support 0.94 0.94 Load comb #2 #2 Length 0.51 0.51 Min req'd 0.51 0.51 Cb 1.00 1.00 Cb min 1.00 1.00 Cb support 1.07 1.07 Fcp sup 625 625 Timber-soft, D.Fir-L (N), No.2, 6x12 (5-1/2"x11-1/2") Supports: All - Timber-soft Beam, D.Fir-L (N) No.2 Total length: 16'-0.5"; Clear span: 15'-11.5"; Volume = 7.0 cu.ft.; Beam or stringer Lateral support: top = at supports, bottom = at supports; This section PASSES the design code check. Analysis vs. Allowable Stress and Deflection using NDS 2018 : Criterion Analysis Value Design Value Unit Analysis/Design Shear fv = 37 Fv' = 195 psi fv/Fv' = 0.19 Bending(+) fb = 697 Fb' = 991 psi fb/Fb' = 0.70 Dead Defl'n 0.10 = < L/999 Live Defl'n 0.26 = L/737 0.53 = L/360 in 0.49 Total Defl'n 0.36 = L/536 0.80 = L/240 in 0.45 WoodWorks® Sizer SOFTWARE FOR WOOD DESIGN WoodWorks® Sizer 2019 (Update 4)2_8 Garage Header Page 2 Additional Data: FACTORS: F/E(psi) CD CM Ct CL CF Cfu Cr Cfrt Ci LC# Fv' 170 1.15 1.00 1.00 - - - - 1.00 1.00 2 Fb'+ 875 1.15 1.00 1.00 0.985 1.000 - 1.00 1.00 1.00 2 Fcp' 625 - 1.00 1.00 - - - - 1.00 1.00 - E' 1.3 million 1.00 1.00 - - - - 1.00 1.00 2 Emin' 0.47 million 1.00 1.00 - - - - 1.00 1.00 2 CRITICAL LOAD COMBINATIONS: Shear : LC #2 = D + S Bending(+): LC #2 = D + S Deflection: LC #2 = D + S (live) LC #2 = D + S (total) Bearing : Support 1 – LC #2 = D + S Support 2 – LC #2 = D + S D=dead S=snow All LC's are listed in the Analysis output Load combinations: ASD Basic from ASCE 7-16 2.4 / IBC 2018 1605.3.1 CALCULATIONS: V max = 1760, V design = 1544 lbs; M(+) = 7040 lbs-ft EIy = 906.17 lb-in^2 "Live" deflection is due to all non-dead loads (live, wind, snow…) Total deflection = 1.0 dead + "live" Lateral stability(+): Lu = 16' Le = 29'-5.25" RB = 11.6 Design Notes: 1. Analysis and design are in accordance with the ICC International Building Code (IBC 2018) and the National Design Specification (NDS 2018), using Allowable Stress Design (ASD). Design values are from the NDS Supplement. 2. Please verify that the default deflection limits are appropriate for your application. 3. Sawn lumber bending members shall be laterally supported according to the provisions of NDS Clause 4.4.1. Robinett Plan 3083 2_9 Beam Aug. 4, 2022 17:08 Design Check Calculation Sheet WoodWorks Sizer 2019 (Update 4) Loads: Load Type Distribution Pat- Location [ft] Magnitude Unit tern Start End Start End DL Dead Full UDL 90.0 plf SL Snow Full UDL 230.0 plf Maximum Reactions (lbs), Bearing Capacities (lbs) and Bearing Lengths (in) : 16'-0.75" 16'0' Unfactored: Dead 723 723 Snow 1847 1847 Factored: Total 2570 2570 Bearing: Capacity Beam 2570 2570 Support 2745 2745 Des ratio Beam 1.00 1.00 Support 0.94 0.94 Load comb #2 #2 Length 0.75 0.75 Min req'd 0.75 0.75 Cb 1.00 1.00 Cb min 1.00 1.00 Cb support 1.07 1.07 Fcp sup 625 625 Timber-soft, D.Fir-L (N), No.2, 6x12 (5-1/2"x11-1/2") Supports: All - Timber-soft Beam, D.Fir-L (N) No.2 Total length: 16'-0.75"; Clear span: 15'-11.25"; Volume = 7.1 cu.ft.; Beam or stringer Lateral support: top = continuous, bottom = at supports; This section FAILS the design check WARNING: This section violates the following design criteria: Bending Analysis vs. Allowable Stress and Deflection using NDS 2018 : Criterion Analysis Value Design Value Unit Analysis/Design Shear fv = 53 Fv' = 195 psi fv/Fv' = 0.27 Bending(+) fb = 1014 Fb' = 1006 psi fb/Fb' = 1.01 Dead Defl'n 0.15 = < L/999 Live Defl'n 0.37 = L/513 0.53 = L/360 in 0.70 Total Defl'n 0.52 = L/368 0.80 = L/240 in 0.65 WoodWorks® Sizer SOFTWARE FOR WOOD DESIGN WoodWorks® Sizer 2019 (Update 4)2_9 Beam Page 2 Additional Data: FACTORS: F/E(psi) CD CM Ct CL CF Cfu Cr Cfrt Ci LC# Fv' 170 1.15 1.00 1.00 - - - - 1.00 1.00 2 Fb'+ 875 1.15 1.00 1.00 1.000 1.000 - 1.00 1.00 1.00 2 Fcp' 625 - 1.00 1.00 - - - - 1.00 1.00 - E' 1.3 million 1.00 1.00 - - - - 1.00 1.00 2 Emin' 0.47 million 1.00 1.00 - - - - 1.00 1.00 2 CRITICAL LOAD COMBINATIONS: Shear : LC #2 = D + S Bending(+): LC #2 = D + S Deflection: LC #2 = D + S (live) LC #2 = D + S (total) Bearing : Support 1 – LC #2 = D + S Support 2 – LC #2 = D + S D=dead S=snow All LC's are listed in the Analysis output Load combinations: ASD Basic from ASCE 7-16 2.4 / IBC 2018 1605.3.1 CALCULATIONS: V max = 2560, V design = 2243 lbs; M(+) = 10240 lbs-ft EIy = 906.17 lb-in^2 "Live" deflection is due to all non-dead loads (live, wind, snow…) Total deflection = 1.0 dead + "live" Design Notes: 1. Analysis and design are in accordance with the ICC International Building Code (IBC 2018) and the National Design Specification (NDS 2018), using Allowable Stress Design (ASD). Design values are from the NDS Supplement. 2. Please verify that the default deflection limits are appropriate for your application. 3. Sawn lumber bending members shall be laterally supported according to the provisions of NDS Clause 4.4.1. Robinett Plan 3083 2_10 Beam Aug. 4, 2022 17:15 Design Check Calculation Sheet WoodWorks Sizer 2019 (Update 4) Loads: Load Type Distribution Pat- Location [ft] Magnitude Unit tern Start End Start End DL Dead Full UDL 185.0 plf LL Live Full UDL 120.0 plf SL Snow Full UDL 120.0 plf Maximum Reactions (lbs), Bearing Capacities (lbs) and Bearing Lengths (in) : 13'-0.69" 13'0' Unfactored: Dead 1208 1208 Live 783 783 Snow 783 783 Factored: Total 2383 2383 Bearing: Capacity Beam 2383 2383 Support 2546 2546 Des ratio Beam 1.00 1.00 Support 0.94 0.94 Load comb #3 #3 Length 0.69 0.69 Min req'd 0.69 0.69 Cb 1.00 1.00 Cb min 1.00 1.00 Cb support 1.07 1.07 Fcp sup 625 625 Timber-soft, D.Fir-L (N), No.2, 6x12 (5-1/2"x11-1/2") Supports: All - Timber-soft Beam, D.Fir-L (N) No.2 Total length: 13'-0.69"; Clear span: 12'-11.31"; Volume = 5.7 cu.ft.; Beam or stringer Lateral support: top = continuous, bottom = at supports; This section PASSES the design code check. WoodWorks® Sizer SOFTWARE FOR WOOD DESIGN WoodWorks® Sizer 2019 (Update 4)2_10 Beam Page 2 Analysis vs. Allowable Stress and Deflection using NDS 2018 : Criterion Analysis Value Design Value Unit Analysis/Design Shear fv = 48 Fv' = 195 psi fv/Fv' = 0.24 Bending(+) fb = 763 Fb' = 1006 psi fb/Fb' = 0.76 Dead Defl'n 0.13 = < L/999 Live Defl'n 0.13 = < L/999 0.43 = L/360 in 0.29 Total Defl'n 0.26 = L/602 0.65 = L/240 in 0.40 Additional Data: FACTORS: F/E(psi) CD CM Ct CL CF Cfu Cr Cfrt Ci LC# Fv' 170 1.15 1.00 1.00 - - - - 1.00 1.00 3 Fb'+ 875 1.15 1.00 1.00 1.000 1.000 - 1.00 1.00 1.00 3 Fcp' 625 - 1.00 1.00 - - - - 1.00 1.00 - E' 1.3 million 1.00 1.00 - - - - 1.00 1.00 3 Emin' 0.47 million 1.00 1.00 - - - - 1.00 1.00 3 CRITICAL LOAD COMBINATIONS: Shear : LC #3 = D + 0.75(L + S) Bending(+): LC #3 = D + 0.75(L + S) Deflection: LC #3 = D + 0.75(L + S) (live) LC #3 = D + 0.75(L + S) (total) Bearing : Support 1 – LC #3 = D + 0.75(L + S) Support 2 – LC #3 = D + 0.75(L + S) D=dead L=live S=snow All LC's are listed in the Analysis output Load combinations: ASD Basic from ASCE 7-16 2.4 / IBC 2018 1605.3.1 CALCULATIONS: V max = 2373, V design = 2012 lbs; M(+) = 7711 lbs-ft EIy = 906.17 lb-in^2 "Live" deflection is due to all non-dead loads (live, wind, snow…) Total deflection = 0.5 dead + "live" Design Notes: 1. Analysis and design are in accordance with the ICC International Building Code (IBC 2018) and the National Design Specification (NDS 2018), using Allowable Stress Design (ASD). Design values are from the NDS Supplement. 2. Please verify that the default deflection limits are appropriate for your application. 3. Sawn lumber bending members shall be laterally supported according to the provisions of NDS Clause 4.4.1. Robinett Plan 3083 2_11 Header Aug. 4, 2022 19:47 Design Check Calculation Sheet WoodWorks Sizer 2019 (Update 4) Loads: Load Type Distribution Pat- Location [ft] Magnitude Unit tern Start End Start End DL Dead Full UDL 595.0 plf LL Live Full UDL 400.0 plf SL Snow Full UDL 895.0 plf Maximum Reactions (lbs), Bearing Capacities (lbs) and Bearing Lengths (in) : 6'-1.39" 6'0' Unfactored: Dead 1820 1820 Live 1223 1223 Snow 2737 2737 Factored: Total 4790 4790 Bearing: Capacity Beam 4790 4790 Support 5116 5116 Des ratio Beam 1.00 1.00 Support 0.94 0.94 Load comb #3 #3 Length 1.39 1.39 Min req'd 1.39 1.39 Cb 1.00 1.00 Cb min 1.00 1.00 Cb support 1.07 1.07 Fcp sup 625 625 Timber-soft, D.Fir-L (N), No.2, 6x12 (5-1/2"x11-1/2") Supports: All - Timber-soft Beam, D.Fir-L (N) No.2 Total length: 6'-1.38"; Clear span: 5'-10.63"; Volume = 2.7 cu.ft.; Beam or stringer Lateral support: top = at supports, bottom = at supports; This section PASSES the design code check. WoodWorks® Sizer SOFTWARE FOR WOOD DESIGN WoodWorks® Sizer 2019 (Update 4)2_11 Header Page 2 Analysis vs. Allowable Stress and Deflection using NDS 2018 : Criterion Analysis Value Design Value Unit Analysis/Design Shear fv = 74 Fv' = 195 psi fv/Fv' = 0.38 Bending(+) fb = 698 Fb' = 1001 psi fb/Fb' = 0.70 Dead Defl'n 0.02 = < L/999 Live Defl'n 0.03 = < L/999 0.20 = L/360 in 0.16 Total Defl'n 0.05 = < L/999 0.30 = L/240 in 0.17 Additional Data: FACTORS: F/E(psi) CD CM Ct CL CF Cfu Cr Cfrt Ci LC# Fv' 170 1.15 1.00 1.00 - - - - 1.00 1.00 3 Fb'+ 875 1.15 1.00 1.00 0.994 1.000 - 1.00 1.00 1.00 3 Fcp' 625 - 1.00 1.00 - - - - 1.00 1.00 - E' 1.3 million 1.00 1.00 - - - - 1.00 1.00 3 Emin' 0.47 million 1.00 1.00 - - - - 1.00 1.00 3 CRITICAL LOAD COMBINATIONS: Shear : LC #3 = D + 0.75(L + S) Bending(+): LC #3 = D + 0.75(L + S) Deflection: LC #3 = D + 0.75(L + S) (live) LC #3 = D + 0.75(L + S) (total) Bearing : Support 1 – LC #3 = D + 0.75(L + S) Support 2 – LC #3 = D + 0.75(L + S) D=dead L=live S=snow All LC's are listed in the Analysis output Load combinations: ASD Basic from ASCE 7-16 2.4 / IBC 2018 1605.3.1 CALCULATIONS: V max = 4699, V design = 3107 lbs; M(+) = 7048 lbs-ft EIy = 906.17 lb-in^2 "Live" deflection is due to all non-dead loads (live, wind, snow…) Total deflection = 0.5 dead + "live" Lateral stability(+): Lu = 6' Le = 12'-4.31" RB = 7.5 Design Notes: 1. Analysis and design are in accordance with the ICC International Building Code (IBC 2018) and the National Design Specification (NDS 2018), using Allowable Stress Design (ASD). Design values are from the NDS Supplement. 2. Please verify that the default deflection limits are appropriate for your application. 3. Sawn lumber bending members shall be laterally supported according to the provisions of NDS Clause 4.4.1. Robinett Plan 3083 2_12 Header Aug. 4, 2022 20:07 Design Check Calculation Sheet WoodWorks Sizer 2019 (Update 4) Loads: Load Type Distribution Pat- Location [ft] Magnitude Unit tern Start End Start End DL Dead Full UDL 270.0 plf LL Live Full UDL 320.0 plf SL Snow Full UDL 80.0 plf Maximum Reactions (lbs), Bearing Capacities (lbs) and Bearing Lengths (in) : 7'-0.95" 7'0' Unfactored: Dead 956 956 Live 1133 1133 Snow 283 283 Factored: Total 2088 2088 Bearing: Capacity Beam 2088 2088 Support 2312 2312 Des ratio Beam 1.00 1.00 Support 0.90 0.90 Load comb #2 #2 Length 0.95 0.95 Min req'd 0.95 0.95 Cb 1.00 1.00 Cb min 1.00 1.00 Cb support 1.11 1.11 Fcp sup 625 625 Lumber-soft, D.Fir-L (N), No.1/No.2, 4x10 (3-1/2"x9-1/4") Supports: All - Timber-soft Beam, D.Fir-L (N) No.2 Total length: 7'-0.94"; Clear span: 6'-11.06"; Volume = 1.6 cu.ft. Lateral support: top = at supports, bottom = at supports; This section PASSES the design code check. WoodWorks® Sizer SOFTWARE FOR WOOD DESIGN WoodWorks® Sizer 2019 (Update 4)2_12 Header Page 2 Analysis vs. Allowable Stress and Deflection using NDS 2018 : Criterion Analysis Value Design Value Unit Analysis/Design Shear fv = 74 Fv' = 180 psi fv/Fv' = 0.41 Bending(+) fb = 869 Fb' = 1009 psi fb/Fb' = 0.86 Dead Defl'n 0.04 = < L/999 Live Defl'n 0.04 = < L/999 0.23 = L/360 in 0.19 Total Defl'n 0.08 = < L/999 0.35 = L/240 in 0.24 Additional Data: FACTORS: F/E(psi) CD CM Ct CL CF Cfu Cr Cfrt Ci LC# Fv' 180 1.00 1.00 1.00 - - - - 1.00 1.00 2 Fb'+ 850 1.00 1.00 1.00 0.989 1.200 - 1.00 1.00 1.00 2 Fcp' 625 - 1.00 1.00 - - - - 1.00 1.00 - E' 1.6 million 1.00 1.00 - - - - 1.00 1.00 3 Emin' 0.58 million 1.00 1.00 - - - - 1.00 1.00 3 CRITICAL LOAD COMBINATIONS: Shear : LC #2 = D + L Bending(+): LC #2 = D + L Deflection: LC #2 = D + L (live) LC #3 = D + 0.75(L + S) (total) Bearing : Support 1 – LC #2 = D + L Support 2 – LC #2 = D + L D=dead L=live S=snow All LC's are listed in the Analysis output Load combinations: ASD Basic from ASCE 7-16 2.4 / IBC 2018 1605.3.1 CALCULATIONS: V max = 2065, V design = 1587 lbs; M(+) = 3614 lbs-ft EIy = 369.34 lb-in^2 "Live" deflection is due to all non-dead loads (live, wind, snow…) Total deflection = 0.5 dead + "live" Lateral stability(+): Lu = 7' Le = 13'-8.69" RB = 11.2 Design Notes: 1. Analysis and design are in accordance with the ICC International Building Code (IBC 2018) and the National Design Specification (NDS 2018), using Allowable Stress Design (ASD). Design values are from the NDS Supplement. 2. Please verify that the default deflection limits are appropriate for your application. 3. Sawn lumber bending members shall be laterally supported according to the provisions of NDS Clause 4.4.1. Robinett Plan 3083 2_13 Header Aug. 4, 2022 20:18 Design Check Calculation Sheet WoodWorks Sizer 2019 (Update 4) Loads: Load Type Distribution Pat- Location [ft] Magnitude Unit tern Start End Start End DL Dead Full UDL 170.0 plf LL Live Full UDL 120.0 plf SL Snow Full UDL 80.0 plf Maximum Reactions (lbs), Bearing Capacities (lbs) and Bearing Lengths (in) : 5'-0.5" 5'0' Unfactored: Dead 429 429 Live 303 303 Snow 202 202 Factored: Total 807 807 Bearing: Capacity Beam 1094 1094 Support 1211 1211 Des ratio Beam 0.74 0.74 Support 0.67 0.67 Load comb #3 #3 Length 0.50* 0.50* Min req'd 0.50* 0.50* Cb 1.00 1.00 Cb min 1.00 1.00 Cb support 1.11 1.11 Fcp sup 625 625 *Minimum bearing length setting used: 1/2" for end supports Lumber-soft, D.Fir-L (N), No.1/No.2, 4x6 (3-1/2"x5-1/2") Supports: All - Timber-soft Beam, D.Fir-L (N) No.2 Total length: 5'-0.5"; Clear span: 4'-11.5"; Volume = 0.7 cu.ft. Lateral support: top = at supports, bottom = at supports; This section PASSES the design code check. WoodWorks® Sizer SOFTWARE FOR WOOD DESIGN WoodWorks® Sizer 2019 (Update 4)2_13 Header Page 2 Analysis vs. Allowable Stress and Deflection using NDS 2018 : Criterion Analysis Value Design Value Unit Analysis/Design Shear fv = 46 Fv' = 180 psi fv/Fv' = 0.25 Bending(+) fb = 616 Fb' = 1105 psi fb/Fb' = 0.56 Dead Defl'n 0.03 = < L/999 Live Defl'n 0.03 = < L/999 0.17 = L/360 in 0.16 Total Defl'n 0.06 = < L/999 0.25 = L/240 in 0.23 Additional Data: FACTORS: F/E(psi) CD CM Ct CL CF Cfu Cr Cfrt Ci LC# Fv' 180 1.00 1.00 1.00 - - - - 1.00 1.00 2 Fb'+ 850 1.00 1.00 1.00 1.000 1.300 - 1.00 1.00 1.00 2 Fcp' 625 - 1.00 1.00 - - - - 1.00 1.00 - E' 1.6 million 1.00 1.00 - - - - 1.00 1.00 3 CRITICAL LOAD COMBINATIONS: Shear : LC #2 = D + L Bending(+): LC #2 = D + L Deflection: LC #3 = D + 0.75(L + S) (live) LC #3 = D + 0.75(L + S) (total) Bearing : Support 1 – LC #3 = D + 0.75(L + S) Support 2 – LC #3 = D + 0.75(L + S) D=dead L=live S=snow All LC's are listed in the Analysis output Load combinations: ASD Basic from ASCE 7-16 2.4 / IBC 2018 1605.3.1 CALCULATIONS: V max = 725, V design = 586 lbs; M(+) = 906 lbs-ft EIy = 77.64 lb-in^2 "Live" deflection is due to all non-dead loads (live, wind, snow…) Total deflection = 0.5 dead + "live" Design Notes: 1. Analysis and design are in accordance with the ICC International Building Code (IBC 2018) and the National Design Specification (NDS 2018), using Allowable Stress Design (ASD). Design values are from the NDS Supplement. 2. Please verify that the default deflection limits are appropriate for your application. 3. Sawn lumber bending members shall be laterally supported according to the provisions of NDS Clause 4.4.1. 2_14 Post Aug. 4, 2022 20:31 Design Check Calculation Sheet WoodWorks Sizer 2019 (Update 4) Loads: Load Type Distribution Location [ft] Magnitude Unit Start End Start End PDL Dead Axial (Ecc. = 0.00") 6855 lbs PLL Live Axial (Ecc. = 0.00") 10500 lbs Reactions (lbs): 9' 9'0' Ba s e To p Unfactored: Lateral: Dead Live Axial: Dead 6855 6855 Live 10500 10500 Factored: L->R Load comb #1 #1 Timber-soft, D.Fir-L (N), No.2, 6x6 (5-1/2"x5-1/2") Support: Non-wood Total length: 9'; Volume = 1.9 cu.ft.; Post or timber Pinned base; Ke x Lb: 1.0 x 9.0 = 9.0 ft; Ke x Ld: 1.0 x 9.0 = 9.0 ft; This section FAILS the design check WARNING: This section violates the following design criteria: Axial Analysis vs. Allowable Stress and Deflection using NDS 2018 : Criterion Analysis Value Design Value Unit Analysis/Design Axial fc = 574 Fc' = 559 psi fc/Fc' = 1.03 Axial Bearing fc = 574 Fc* = 700 psi fc/Fc* = 0.82* *Column requires a bearing plate at top as per NDS 3.10.1.3 WoodWorks® Sizer SOFTWARE FOR WOOD DESIGN WoodWorks® Sizer 2019 (Update 4)2_14 Post Page 2 Additional Data: FACTORS: F/E(psi) CD CM Ct CL/CP CF Cfu Cr Cfrt Ci LC# Fc' 700 1.00 1.00 1.00 0.799 1.000 - - 1.00 1.00 2 Fc* 700 1.00 1.00 1.00 - 1.000 - - 1.00 1.00 2 CRITICAL LOAD COMBINATIONS: Axial : LC #2 = D + L D=dead L=live All LC's are listed in the Analysis output Load combinations: ASD Basic from ASCE 7-16 2.4 / IBC 2018 1605.3.1 Design Notes: 1. Analysis and design are in accordance with the ICC International Building Code (IBC 2018) and the National Design Specification (NDS 2018), using Allowable Stress Design (ASD). Design values are from the NDS Supplement. 2. Please verify that the default deflection limits are appropriate for your application. Robinett Plan 3083 3_2 Beam Aug. 4, 2022 20:48 Design Check Calculation Sheet WoodWorks Sizer 2019 (Update 4) Loads: Load Type Distribution Pat- Location [ft] Magnitude Unit tern Start End Start End DL Dead Full UDL No 760.0 plf LL Live Full UDL Yes 1200.0 plf Maximum Reactions (lbs), Bearing Capacities (lbs) and Bearing Lengths (in) : 4'8' 12'-1.6" 12'0' Unfactored: Dead 1267 3344 3344 1267 Live 2240 5760 5760 2240 Factored: Total 3507 9104 9104 3507 Bearing: Capacity Beam 3507 9104 9104 3507 Support 3883 9171 9171 3883 Des ratio Beam 1.00 1.00 1.00 1.00 Support 0.90 0.99 0.99 0.90 Load comb #7 #5 #8 #7 Length 1.60 3.79 3.79 1.60 Min req'd 1.60 3.79 3.79 1.60 Cb 1.00 1.10 1.10 1.00 Cb min 1.00 1.10 1.10 1.00 Cb support 1.11 1.11 1.11 1.11 Fcp sup 625 625 625 625 Lumber-soft, D.Fir-L (N), No.1/No.2, 4x10 (3-1/2"x9-1/4") Supports: All - Timber-soft Beam, D.Fir-L (N) No.2 Total length: 12'-1.63"; Clear span: 3'-9.31", 3'-8.19", 3'-9.31"; Volume = 2.7 cu.ft. Lateral support: top = continuous, bottom = at end supports; This section PASSES the design code check. Analysis vs. Allowable Stress and Deflection using NDS 2018 : Criterion Analysis Value Design Value Unit Analysis/Design Shear fv = 139 Fv' = 180 psi fv/Fv' = 0.77 Bending(+) fb = 699 Fb' = 1020 psi fb/Fb' = 0.69 Bending(-) fb = 831 Fb' = 1000 psi fb/Fb' = 0.83 Dead Defl'n 0.01 = < L/999 Live Defl'n 0.01 = < L/999 0.13 = L/360 in 0.11 Total Defl'n 0.02 = < L/999 0.20 = L/240 in 0.10 WoodWorks® Sizer SOFTWARE FOR WOOD DESIGN WoodWorks® Sizer 2019 (Update 4)3_2 Beam Page 2 Additional Data: FACTORS: F/E(psi) CD CM Ct CL CF Cfu Cr Cfrt Ci LC# Fv' 180 1.00 1.00 1.00 - - - - 1.00 1.00 5 Fb'+ 850 1.00 1.00 1.00 1.000 1.200 - 1.00 1.00 1.00 7 Fb'- 850 1.00 1.00 1.00 0.980 1.200 - 1.00 1.00 1.00 5 Fcp' 625 - 1.00 1.00 - - - - 1.00 1.00 - E' 1.6 million 1.00 1.00 - - - - 1.00 1.00 7 Emin' 0.58 million 1.00 1.00 - - - - 1.00 1.00 7 CRITICAL LOAD COMBINATIONS: Shear : LC #5 = D + L (pattern: LL_) Bending(+): LC #7 = D + L (pattern: L_L) Bending(-): LC #5 = D + L (pattern: LL_) Deflection: LC #7 = D + L (pattern: L_L) (live) LC #7 = D + L (pattern: L_L) (total) Bearing : Support 1 – LC #7 = D + L (pattern: L_L) Support 2 – LC #5 = D + L (pattern: LL_) Support 3 – LC #8 = D + L (pattern: _LL) Support 4 – LC #7 = D + L (pattern: L_L) D=dead L=live All LC's are listed in the Analysis output Load Patterns: s=S/2, X=L+S or L+Lr, _=no pattern load in this span Load combinations: ASD Basic from ASCE 7-16 2.4 / IBC 2018 1605.3.1 CALCULATIONS: V max = 4784, V design = 3003 lbs; M(+) = 2907 lbs-ft; M(-) = 3456 lbs-ft EIy = 369.34 lb-in^2 "Live" deflection is due to all non-dead loads (live, wind, snow…) Total deflection = 0.5 dead + "live" Lateral stability(-): Lu = 12' Le = 22'-0.94" RB = 14.1; Lu based on full span Design Notes: 1. Analysis and design are in accordance with the ICC International Building Code (IBC 2018) and the National Design Specification (NDS 2018), using Allowable Stress Design (ASD). Design values are from the NDS Supplement. 2. Please verify that the default deflection limits are appropriate for your application. 3. Continuous or Cantilevered Beams: NDS Clause 4.2.5.5 requires that normal grading provisions be extended to the middle 2/3 of 2 span beams and to the full length of cantilevers and other spans. 4. Sawn lumber bending members shall be laterally supported according to the provisions of NDS Clause 4.4.1. This message is from an External Sender This message came from outside the City of Arlington From:Sarah Uplinger To:Kristin Foster Subject:Re: Bridgemont SFR Review Comments Date:Wednesday, October 18, 2023 1:04:01 PM Attachments:image001.png 3038 Bridgemont Lot 15.pdf 2808A Bridgemont Lot 10.pdf Oops somehow these 2 did not come through on the first email - Sarah Uplinger 425-490-2205 Office 425-490-2206 FaxMy office hours are Monday -Thursday 7am-3pm On Wed, Oct 18, 2023 at 12:57 PM Sarah Uplinger <sarah@robinetthomes.com> wrote: Attached are new site plans for lots 3,5,7,8,9,10,11, 15 and 17. The blank walls of windows are on the side of structures which will be blocked bythe structures adjacent. The walls of lots 1 & 18 which face the 186th St NE havebeen revised and will be submitted when those permits are ready for submission(later this week). Hopefully that addresses the initial comments, I will be bringing physical copies of these site plans along with the new permit submissions to the office tomorrow. - Sarah Uplinger 425-490-2205 Office425-490-2206 FaxMy office hours are Monday -Thursday 7am-3pm On Thu, Jul 20, 2023 at 9:04 AM Kristin Foster <kfoster@arlingtonwa.gov> wrote: Good Morning, Please see below review comments regarding the submittals we received for the single- family homes. These comments apply to all plans (A, B and Gable). Please revise plans accordingly per comments 1 and 2. Links to Arlington Municipal Code and the Development Design Standards are provided below. Comment 3 is for your information and will be conditioned on the building permit. 1. The single-family homes are subject to the Development Design Standards (DDS) per AMC 20.46.010(a)(1). 2. No blank walls are allowed per DDS 2.2.3(a)(b) and 11.2.3.4. Please amend the right side of the structures. 3. No service elements were shown on the plans. Service elements are not allowed on the facade of the structure. All electrical (PUD), heating units, AC units, etc. are to be placed on the side or rear of the structure. AMC 20.46 Chapter-2046-Design (arlingtonwa.gov) Development Design Standards Development-Design-Standards (arlingtonwa.gov) Feel free to reach out should you have any questions. Regards, Kristin Foster Permit Technician City of Arlington Community & Economic Development 18204 59th Ave NE Arlington, WA 98223 Office: 360-403-3545 www.arlingtonwa.gov