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Home My WebLink AboutCA_Structural_Calculations_190628_V3 STRUCTURAL CALCULATIONS for the PROPOSED RUEPPELL HOME DESIGN PLAN 2694 January 21, 2019 Client: JK Monarch Site: Renton/Chelan/Lot 11 XXX Chelan Ave NE Renton, WA Calculated by: Eric L. Rice, PE ELR Engineering 1915 Dayton Ave NE Renton, WA 98056 Phone: (206) 200-8764 Email: elreng33@gmail.com Eric L. Rice 01/21/19 Eric L. Rice08/08/17 D08-053 B19001045 V3 REVISION Received: 06/28/2019 / aalexander BUILDING DIVISION APPROVEDBUILDING DIVISION THIS SET OF APPROVED PLANS MUST BE ON THE JOB AT ALLTIMES DURING CONSTRUCTION. THIS BUILDING IS NOT TO BEOCCUPIED UNTIL AFTER FINAL INSPECTION BY THE RENTONBUILDING DIVISION AND RECEIPT OF CERTIFICATE OFOCCUPANCY. APPROVAL SHALL NOT BE CONSTRUED AS THE AUTHORITY TOVIOLATE OR CANCEL ANY PROVISIONS OF CODES, ORDINANCES,OR OTHER REGULATIONS ENFORCED BY THIS CITY. DATE: 07/10/2019 ELR Engineering Project: Renton/Chelan/2694 1915 Dayton Ave NE Job No. Figured by: ELR Renton, WA 98056 Checked by: Date: 1/21/2019 Sheet: 2 phone: (206) 200-8764 email: elreng33@gmail.com Scope of Work: ELR Engineering was asked to provide permit submittal structural calculations for the proposed Rueppell Home Design Plan 2694 for JK Monarch. Our structural engineering information is shown in these calculations and on the building designer’s submitted S-sheets. The information in this report conforms to the 2015 International Building Code as amended by the local jurisdiction. These calculations are applicable and valid only for the site stated on the cover sheet of these calculations. Questions should be addressed to the undersigned. Eric L. Rice, PE ELR Engineering GENERAL STRUCTURAL NOTES (Unless noted otherwise on plans and details) CODES AND SPECIFICATIONS 1. International Building Code (IBC) - 2015 edition with local jurisdiction amendments as applicable 2. ASCE/SEI 7-10 - Minimum Design Loads for Buildings and Other Structures with Supplement No. 1 3. ANSI AWC NDS-2015/AWC SPDWS 2015/AWC WFCM 2015 - National Design Specification for Wood Construction with 2015 NDS Supplement/Special Design Provisions for Wind & Seismic/Wood Frame Construction Manual for One- and Two-Family Dwellings 4. ACI 318-14 - Building Code Requirements for Structural Concrete 5. AISC 360-10/341-10 - Specification for Structural Steel Buildings/Seismic Provisions for Structural Steel Buildings 6. AWS D1.4/D1.4M-2011/Structural Welding Code 7. TMS 402-2013/ACI 530-13/ASCE 5-13 - Building Code Requirements for Masonry Structures DESIGN CRITERIA 1. Wind - Risk category = II, Basic wind speed (V) = 110 mph, Wind directionality factor = 0.85, Exposure category = B, Topographic factor Kzt = 1.00, Gust effect factor = 0.85, Enclosure classification = Enclosed, Internal pressure coefficient(GCpi) = ± 0.18 2. Seismic - Risk category = II, Seismic importance factor (Ie) = 1.00, Site Class = D, Ss = 1.398, S1 = 0.526, SDS = 0.932, SD1 = 0.526, Seismic Design Category = D, Basic seismic-force-resisting system = A.15 per ASCE 7-10 Table 12.2-1, Seismic response coefficient (CS) = 0.143(orthogonal 1) & 0.143(orthogonal 2), Response modification factor (R) = 6.5(orthogonal 1) & 6.5(orthogonal 2), Design procedure used = Equivalent Lateral Force Procedure 3. Roof - Dead: 15 psf Live: 20 psf Snow: 25 psf (Ps) 4. Floor - Dead: 12 psf Live: 40 psf, 60 psf (deck) 5. Soils - Vertical bearing pressure (capacity): 1500 psf Lateral bearing pressure (capacity): 150 psf/ft of depth Coefficient of friction (capacity): 0.25 (multiplied by dead load) Active design lateral load: 40 psf/ft of depth At-rest design lateral load: 60 psf/ft of depth STRUCTURAL OBSERVATION 1. Structural observation is required only when specifically designated as being required by the registered design professional or the building official. SOIL CONSTRUCTION 1. Extend footings to undisturbed soil or fill compacted to 95% Modified Proctor (ASTM D1557). All construction on fill soils shall be reviewed by a registered geotechnical engineer. All footings shall be 18 inches minimum below adjacent finish grade. It is the contractor's responsibility to verify that the site soils provide the minimum vertical bearing pressure capacity stated above. PIPE PILES 1. Pipe shall conform to ASTM A53 Grade B. Unless noted otherwise, pipe is not required to be galvanized. 2. Pipe shall be driven to refusal and tested (as required) per Geotechnical Engineer’s requirements. REINFORCED CONCRETE 1. f'c = 3000 psi(*) at 28 days. Min 5-½ sacks of cement per cubic yard of concrete and maximum of 6-3/4 gallons of water per 94 lb. sack of cement. (*) Special inspection is not required - 3000 psi compressive strength is specified for weathering protection only - structural design is based on f'c = 2500 psi. 2. Maximum aggregate size is 7/8”. Maximum slump = 4 inches. 3. All concrete shall be air entrained - 5% minimum / 7% maximum (percent by volume of concrete). 4. Mixing and placement of all concrete shall be in accordance with the IBC and ACI 318. Proportions of aggregate to cement shall be such as to produce a dense, workable mix which can be placed without segregation or excess free surface water. Provide 3/4 inch chamfer on all exposed concrete edges unless otherwise indicated on architectural drawings. 5. No special inspection is required. 6. Vibrate all concrete walls. Segregation of materials shall be prevented. REINFORCING STEEL 1. Concrete reinforcement shall be detailed, fabricated and placed in accordance with ACI 318. 2. Reinforcing steel shall be grade 40 minimum and deformed billet steel conforming to ASTM A615. 3. Welded wire mesh shall conform to ASTM A185. 4. Reinforcing steel shall be accurately placed and adequately secured in position. The following protection for reinforcement shall be provided: Min Cover Cast against and permanently exposed to earth - 3" Exposed to earth or weather - 1.5" for #5 bar and smaller 2" for #6 bar and larger Slabs and walls at interior face - 1.5" 5. Lap continuous reinforcing bars 32 bar diameters (1’-6” min) in concrete. Corner bars consisting of 32 bar diameter (1’-6” min) bend shall be provided for all horizontal reinforcement. Lap welded wire mesh edges 1.5 mesh minimum. This criteria applies unless noted otherwise. RETAINING WALLS 1. Concrete floor slabs to be poured and cured and floor framing above shall be complete before backfilling behind retaining walls. TIMBER 1. Unless noted otherwise, all sawn lumber shall be kiln dried and graded/marked in conformance with WCLIB standard grading for west coast lumber. Lumber shall meet the following minimum criteria: 4x and larger: DF #2 (Fb=875 psi) 3x and smaller: HF #2 (Fb=850 psi) or SPF #2 (Fb=875 psi) 2. Wall studs shall be: Bearing walls with 10'-0" maximum stud length 2x4 HF stud grade or btr at 24" (max) oc - carrying only roof and ceiling 2x4 HF stud grade or btr at 16" (max) oc - carrying only one floor, roof and ceiling 2x6 HF stud grade or btr at 24" (max) oc - carrying only one floor, roof and ceiling 2x6 HF stud grade or btr at 16" (max) oc - carrying only two floors, roof and ceiling Non-Bearing walls with maximum stud length noted 2x4 HF stud grade or btr at 24" (max) oc - 10'-0" maximum stud length 2x6 HF stud grade or btr at 24" (max) oc - 15'-0" maximum stud length 3. Provide 4x6 DF2 header over openings not noted otherwise. Provide (1)2x trimmer and (1)2x king header support for clear spans 5'-0" or less. Provide (2)2x trimmer and (1)2x king header support for clear spans exceeding 5'-0". 4. Provide solid blocking in floor space under all posts and wall members connected to holdowns. Orient blocking such that wood grain in blocking is oriented vertically. 5. Provide double floor joists under all partition walls parallel to floor joists and along the perimeter of all diaphragm openings. 6. Provide double blocking between floor joists under all partition walls perpendicular to floor joists. WOOD CONNECTORS, FASTENERS AND PRESSURE TREATED WOOD 1. All wood connectors shall be Simpson or approved equal. 2. All nails shall be common wire nails unless noted otherwise. 3. All nailing shall meet the minimum nailing requirements of Table 2304.10.1 of the International Building Code. 4. All wood in contact with ground or concrete to be pressure-treated with a wood preservative. 5. Wood used above ground shall be pressure treated in accordance with AWPA U1 for the following conditions: a) Joists, girders, and subfloors that are closer than 18" to exposed ground in crawl spaces or unexcavated areas located within the perimeter of the building foundation. b) Wood framing including sheathing that rest on exterior foundation walls and are less than 8 inches from exposed earth. c) Sleepers, sills, ledgers, posts and columns in direct contact with concrete or masonry. 6. All field-cut ends, notches, and drilled holes of preservative-treated wood shall be treated, for use category UC4A per AWPA U1-07, in the field using a 9.08% Copper Naphthenate (CuN) solution such as "End cut Solution" (Cunapsol-1) in accordance with the directions of the product manufacturer. 7. All wood connectors and associated steel fasteners (except anchor bolts and holdown anchors, 1/2" diameter and larger) in contact with any preservative-treated wood shall conform to one of the following corrosion protection configuration options: a) All wood connectors and associated steel fasteners shall be Type 303, 304, 306 or 316 stainless steel when actual wood preservative retention levels exceed the following levels: Treatment Retention level (pcf) ACQ (Alkaline Copper Quat) Greater than 0.40 MCQ (Micronized Copper Quat) Greater than 0.34 CA-B (Copper Azole) Greater than 0.21 CA-C & MCA (Copper Azole & Azole Biocide) Greater than 0.15 µCA-C (Azole Biocide) Greater than 0.14 b) When actual wood preservative retention levels do not exceed the levels in 7.a) above, all wood connectors and fasteners shall, at a minimum, be hot-dipped galvanized by one of the following methods: i) Continuous hot-dipped galvanizing per ASTM A653, type G185. ii) Batch or Post hot-dipped galvanizing per ASTM 123 for individual connectors and as per ASTM A153 for fasteners. Fasteners, other than nails, timber rivets, wood screws and lag screws, may be hot-dipped galvanized as per ASTM B695, Class 55 minimum. c) Plain carbon steel fasteners in SBX/DOT and zinc borate preservative treated wood in an interior, dry environment shall be permitted. 8. Do not mix stainless steel and hot-dipped galvanized wood connectors and fasteners. 9. All anchor bolts shall be as specified in the general notes on the shearwall schedule. 10. Where a connector strap connects two wood members, install one half of the total required nails or bolts in each member. 11. All bolts in wood members shall conform to ASTM A307. 12. Provide standard cut washers under the head of all bolts and lag screws bearing on wood. ANCHORAGE 1. All anchor bolts and holdown bolts embedded in concrete or masonry shall be A307 unless noted otherwise. Expansion bolts into concrete not otherwise specified shall be Simpson STRONG-BOLT 2 Wedge Anchor. Install in accordance with ICC ESR-1771, including minimum embedment depth requirements. NAILS 1. Nailing of wood framed members to be in accordance with IBC table 2304.10.1 unless otherwise noted. Connection designs are based on nails with the following properties: PENNY WEIGHT DIAMETER (INCHES) LENGTH (INCHES) 8d sinker 0.113 2-3/8 8d common 0.131 2-1/2 10d box 0.131 3 16d sinker 0.148 3-1/4 16d common 0.162 3-1/2 SHEARWALLS 1. All shearwall plywood nailing and anchors shall be as detailed on the drawings and noted in the shearwall schedule. All exterior walls shall be sheathed with 7/16” APA rated sheathing (24/16) - blocked - with minimum nailing 0.131" diameter x 2.5" nails @ 6” OC edges/12” oc field unless noted otherwise. 2. All headers shall have strap connectors to the top plate each end when the header interrupts the continuous (2)2x top plate. Use (1)Simpson MSTA24 connector each end unless noted otherwise. 3. All shearwall holdowns shall be as noted on the plans and shall be Simpson or approved equal. 4. All holdown anchors shall be installed as shown on plans and as per manufacturer's requirements. Holdown anchors may be wet-set or drilled and epoxied (Simpson "SET" epoxy or approved equal) with prior approval from the Engineer of Record. Provide the full embedment into concrete as stated on the plans. FLOOR AND ROOF DIAPHRAGMS 1. Apply 23/32” APA rated Sturd-I-Floor(24” oc) nailed to floor framing members with 0.131" diameter x 2.5" nails at 6” OC at all supported edges and at 12” OC at interior supports unless noted otherwise on the plans. Offset panel joints between parallel adjacent runs of sheathing. 2. Apply 7/16” APA rated sheathing(24/16) nailed to roof framing members with 0.113" diameter x 2.5" nails at 6” OC at supported edges and at 12” OC at interior supports unless noted otherwise on the plans. Offset panel joints between parallel adjacent runs of sheathing. 3. Blocking of interior edges is not required unless noted otherwise on the plans. BUILT-UP WOOD COLUMNS 1. All columns not specified or otherwise noted on the plans shall be (2)2x studs gang fastened per standard detail. 2. All columns not specified or otherwise noted on the plans supporting girder trusses or beams shall be (3)2x studs gang fastened per standard detail. MANUFACTURED WOOD TRUSSES 1. Trusses shall be designed, fabricated, and installed in accordance with the “Design Specifications for Light Metal Plate Connected Wood Trusses” by the Truss Plate Institute. 2. All trusses shall be designed and stamped by a professional engineer licensed in the State of Washington. 3. Roof trusses shall be fabricated of Douglas Fir-Larch or Hem-Fir. 4. All mechanical connectors shall be IBC approved. 5. Submit design calculations, shop drawings and installation drawings stamped by a licensed engineer of all trusses to the owner's representative for review and Building Department approval. 6. Truss members and components shall not be cut, notched, drilled, spliced or otherwise altered in any way without written approval of the registered design professional. 7. Where trusses align with shearwalls, a special truss shall be provided that has been designed to transfer the load between the roof sheathing and the shearwall below. This truss shall be designed to transfer a minimum of 100 plf along the full length of the truss. 8. All temporary and permanent bracing required for the stability of the truss under gravity loads and in-plane wind or seismic loads shall be designed by the truss engineer. Any bracing loads transferred to the main building system shall be identified and submitted to the engineer of record for review. PARALLEL STRAND LUMBER (PSL) 1. Parallel strand lumber shall be manufactured as per NER-292 and meet the requirements of ASTM D2559 - Fb=2900 psi, E=2.2E6 psi for beams and Fb=2400 psi, E=1.8E6 psi for columns. LAMINATED VENEER LUMBER (LVL) 1. Laminated veneer lumber shall be Doug Fir meeting the requirements of ASTM D2559 - Fb=2600 psi, E=2.0E6 psi. 2. For top loaded multiple member beams only, fasten with two rows of 0.148" diameter x 3" nails at 12” OC. Use three rows of 0.148" diameter x 3" nails for beams with depths of 14” or more. 3. Provide full depth blocking for lateral support at bearing points. LAMINATED STRAND LUMBER (LSL) 1. Laminated strand lumber shall be manufactured as per NER-292 and meet the requirements of ASTM D2559 - Fb=2325 psi, E=1.55E6 psi for beams and Fb=1700 psi, E=1.3E6 psi for beams/columns and Fb=1900 psi, E=1.3E6 psi for planks. GLUED LAMINATED WOOD MEMBERS (GLB) 1. Glued laminated wood beams shall be Douglas Fir, kiln-dried, stress grade combination 24F-V4 (Fb=2400 psi, E=1.8E6 psi) unless otherwise noted on the plans. 2. Fabrication shall be in conformance with ANSI A190.1-12. 3. AITC stamp and certification required on each and every member. WOOD I-JOISTS 1. Joists by Truss Joists/MacMillan or approved equal. 2. Joists to be erected in accordance with the plans and any Manufacturers drawings and installation drawings. 3. Construction loads in excess of the design loads are not permitted. 4. Provide erection bracing until sheathing material has been installed. 5. See manufacturer's references for limitations on the cutting of webs and/or flanges. STEEL CONSTRUCTION 1. Structural steel shall be ASTM A992 (wide flange shapes) or A53-Grade B (pipe) or A36 (other shapes and plate) unless noted otherwise. 2. All fabrication and erection shall comply with AISC specifications and codes. 3. All welding shall be as shown on the drawings and in accordance with AWS and AISC standards. Welding shall be performed by WABO certified welders using E70XX electrodes. Only pre-qualified welds (as defined by AWS) shall be used. MASONRY 1. Construction shall meet the requirements of IBC Chapter 21. 2. Special inspection is not required. 3. All concrete block masonry shall be laid up in running bond and shall have a minimum compressive strength of f’m = 1500 psi, using Type “S” mortar, f’c = 1800 psi. 4. All cells containing reinforcing bars shall be filled with concrete grout with an f’c = 2000 psi in maximum lifts of 4’-0”. 5. Bond beams with two #5 horizontally shall be provided at all floor and roof elevations and at the top of the wall. 6. Provide a lintel beam with two #5 horizontally over all openings and extend these two bars 2’-0” past the opening at each side or as far as possible and hook. 7. Provide two #5 vertically for the full story height of the wall at wall ends, intersections, corners and at each side of all openings unless otherwise shown. 8. Dowels to masonry walls shall be embedded a minimum of 1’-6” or hooked into the supporting structure and of the same size and spacing as the vertical wall reinforcing. 9. Provide corner bars to match the horizontal walls reinforcing at all wall intersections. 10. Reinforcing steel shall be specified under “REINFORCING STEEL”. Lap all reinforcing bars 40 bar diameters with a minimum of 1’-6”. 11. Masonry walls shall be reinforced as shown on the plans and details and if not shown, shall have (1) #5 @ 48” OC horizontally and (1) #5 @ 48” OC vertically. 12. Embed anchor bolts a minimum of 5”. GENERAL CONSTRUCTION 1. All materials, workmanship, design, and construction shall conform to the project drawings, specifications, and the International Building Code. 2. Structural drawings shall be used in conjunction with architectural drawings for bidding and construction. Contractor shall verify dimensions and conditions for compatibility and shall notify the architect of any discrepancies prior to construction. Discrepancies: The contractor shall inform the engineer in writing, during the bidding period, of any and all discrepancies or omissions noted on the drawings and specifications or of any variations needed in order to conform to codes, rules and regulations. Upon receipt of such information, the engineer will send written instructions to all concerned. Any such discrepancy, omission, or variation not reported shall be the responsibility of the contractor. 3. The contractor shall provide temporary bracing as required until all permanent framing and connections have been completed. 4. The contractor shall coordinate with the building department for all permits and building department required inspections. 5. Do not scale drawings. Use only written dimensions. 6. Drawings indicate general and typical details of construction. Where conditions are not specifically indicated but are of similar character to details shown, similar details of construction shall be used, subject to review and approval by the architect and the structural engineer. 7. Contractor initiated changes shall be submitted in writing to the architect and structural engineer for approval prior to fabrication or construction. 8. All structural systems which are to be composed of field erected components shall be supervised by the supplier during manufacturing, delivery, handling, storage, and erection in accordance with instructions prepared by the supplier. 9. Contractor shall be responsible for all safety precautions and the methods, techniques, sequences, or procedures required to perform the work. 10. Shop drawing review: Dimensions and quantities are not reviewed by the engineer of record, therefore, must be reviewed by the contractor. Contractor shall review and stamp all shop drawings prior to submitting for review by the engineer of record. Submissions shall include a reproducible and one copy. Reproducible will be marked and returned. Re-submittals of previously submitted shop drawings shall have all changes clouded and dated with a sequential revision number. Contractor shall review and stamp all revised and resubmitted shop drawings prior to submittal and review by the engineer of record. In the event of conflict between the shop drawings and design drawings/specifications, the design drawings/specifications shall control and be followed. Shearwall Schedule [(1),(7),(13)] General Notes: (unless noted otherwise) ELR Engineering (1) Wall stud framing is assumed to be as per the general structural notes. 1915 Dayton Ave NE (2) All panel edges are to be supported by framing members - studs, plates and blocking (unless noted otherwise in the table above). Renton, WA 98056 (3) Allowable shears in the table above assume either 1) wall studs at 16" oc with panel long-axis oriented vertically or horizontally and field fastener spacing as per the table above phone: 206.200.8764 or 2) wall studs at 24" oc with panel long-axis oriented horizontally and 6" oc field fastener spacing. email: elreng33@gmail.com (4) Where the full thickness of (2)2x or 3x mudsills are directly connected to wall studs, use (2)0.148" dia.x4" end nails (20d box) per stud. (5) (2)2x material can be used in lieu of 3x material provided the (2)2x is gang nailed as per the associated shearwall bottom plate nailing. (6) Where bottom plate attachment specifies 2 or more rows of nails into the wood floor below, provide rim joist(s), joist(s) or blocking that has a minimum total width of 2.5 inches. (7) Unless noted otherwise, provide (1)2x treated mudsill with 5/8" diameter anchor bolts at 72" oc and located within 4" to 12" from the cut ends of the sill plate. Provide a minimum of two anchor bolts per mudsill section. (8) Provide .229"x3"x3" plate washers at all anchor bolts in 2x4/3x4 mudsills and .229"x3"x4-1/2" plate washers at all anchor bolts in 2x6/3x6 mudsills. The distance from the inside face of any structural sheathing to the nearest edge of the nearest plate washer shall not exceed 1/2". Embed anchor bolts 7 inches min. into concrete. Min. anchor bolt concrete edge dist. (perp. to mudsill) is 1-3/4”. Min. anchor bolt concrete end dist. (parallel to mudsill) is 8”. (9) Use 0.131"dia. x 1-1/2" long nails if connector is in contact with framing. Use 0.131"dia. x 2-1/2" long nails if connector is installed over sheathing. (10) Adjoining horz. panel joints are not permitted to be located on either side of the top plate or the bottom plate. Locate adjoining horz. panel joints on the rim joist above and/or below or at blocking in wall above and/or below. (11) Spacing shown assumes top plate connectors are installed on one side of wall. If installed on both sides of wall, required spacing can be multiplied by two (2). (12) Table above shows ASD allowable unit shear capacity. LRFD factored unit shear resistance is calculated by multiplying ASD values above by 1.6. (13) Shearwalls designated as FTAO (force transfer around openings) or perforated require sheathing and shear nailing above and below all openings for the full extent of the shearwall. (14) Shearwall edge nailing is required along full height of all holdown members. At built-up holdown members, distribute edge nailing into all laminations. (15) LTP4's and/or A35's are not required at the top of the shear wall when/where the shear wall is sheathed on one side only and when/where the location of adjoining horz. panel joints meets note (10) requirements. (16) Vertical and horizontal panel joints (where occur) on opposite sides of the wall shall not occur on the same framing member (stud, plate, or blocking) unless that framing member is a 3x member (min.) with panel edge nailing staggered or that framing member is a (2)2x (min.) as per footnote (5) above. (17) Vertical and horizontal panel joints (where occur) shall be located on a 3x framing member (min.) with panel edge nailing staggered or on a (2)2x (min.) framing member as per footnote (5) above. rev. 09.22.17 Mark per plan Sheathing No. sides sheathed Fastener size Edge fastener spacing (14) Field fastener spacing Framing member at adjoining panels (2) Bottom plate when directly on wood (10) Bottom plate nail size Bottom plate nail spacing in each row Bottom plate when directly on concrete (4),(5),(10) Anchor bolt dia. (8) Anchor bolt spacing, (2x sill) (3x sill) Top plate connector (9),(15) Top plate connector spacing (11),(15) ASD Vseismic (12) ASD Vwind (+40%) (12) W6A 7/16” PLY/OSB 1 0.131” dia. x 2.5” 6” 12” 2x stud & unblocked horz. joints 2x 0.131” dia. x 3” 1-row 12” 2x or 3x 5/8” 72”(2x) 72"(3x) A35 or LTP4 50” 145 plf 203 plf W6B 7/16” PLY/OSB 1 0.131” dia. x 2.5” 6” 6” 2x stud & unblocked horz. joints 2x 0.131” dia. x 3” 1-row 9” 2x or 3x 5/8” 72”(2x) 72"(3x) A35 or LTP4 36” 193 plf 271 plf W6 7/16” PLY/OSB 1 0.131” dia. x 2.5” 6” 12”(3) 2x 2x 0.131” dia. x 3” 1-row 7” 2x or 3x 5/8” 68”(2x) 72"(3x) A35 or LTP4 30” 242 plf 339 plf W4 7/16” PLY/OSB 1 0.131” dia. x 2.5” 4” 12”(3) 2x 2x 0.131” dia. x 3” 2-row 10"(6) 2x or 3x 5/8” 47”(2x) 58"(3x) A35 or LTP4 20” 353 plf 495 plf W3 7/16” PLY/OSB 1 0.131” dia. x 2.5” 3” 12”(3) 2x 2x 0.131” dia. x 3” 2-row 8"(6) 2x or 3x 5/8” 36”(2x) 45"(3x) A35 or LTP4 16” 456 plf 638 plf W2 7/16” PLY/OSB 1 0.131” dia. x 2.5" 2” 12”(3) 3x (5, 17) 2x 0.131” dia. x 3” 2-rows 6"(6) 2x or 3x 5/8” 28"(2x) 34"(3x) A35 or LTP4 12” 595 plf 833 plf 2W3 7/16” PLY/OSB 2 0.131” dia. x 2.5" 3” 12”(3) 3x (5, 16) 2x 0.131” dia. x 3” 3-rows 6"(6) 2x or 3x 5/8” 18"(2x) 22"(3x) A35 or LTP4 8” 911 plf 1276 plf 2W2 19/32” PLY/OSB 2 0.131” dia. x 2.5" 2” 12” 3x (5, 16, 17) 2x 0.131” dia. x 3” 3-rows 4"(6) 2x or 3x 5/8” 12"(2x) 15"(3x) A35 or LTP4 5” 1363 plf 1908 plf ELR Engineering 1915 Dayton Ave NE Renton, WA 98056 phone: (206) 200-8764 email: elreng33@gmail.com Vertical Calculations 01: ROOF Member Name Results Current Solution Comments 1 Passed 1 Piece(s) 4 x 8 Douglas Fir-Larch No. 2 2 Passed 1 Piece(s) 4 x 8 Douglas Fir-Larch No. 2 3 Passed 1 Piece(s) 4 x 8 Douglas Fir-Larch No. 2 4 Passed 1 Piece(s) 4 x 8 Douglas Fir-Larch No. 2 5 Passed 1 Piece(s) 4 x 10 Douglas Fir-Larch No. 2 02: FLOOR-U Member Name Results Current Solution Comments 1 Passed 1 Piece(s) 11 7/8" TJI® 210 @ 16" OC 2 Passed 1 Piece(s) 11 7/8" TJI® 110 @ 16" OC 3 Passed 1 Piece(s) 11 7/8" TJI® 110 @ 16" OC 4 Passed 1 Piece(s) 5 1/2" x 15" 24F-V4 DF Glulam 5 Passed 1 Piece(s) 5 1/2" x 12" 24F-V4 DF Glulam 6 Passed 1 Piece(s) 3 1/2" x 11 7/8" 2.2E Parallam® PSL 7 Passed 1 Piece(s) 4 x 10 Douglas Fir-Larch No. 2 8 Passed 1 Piece(s) 5 1/2" x 10 1/2" 24F-V4 DF Glulam 9 Passed 1 Piece(s) 5 1/2" x 10 1/2" 24F-V4 DF Glulam 10 Passed 1 Piece(s) 4 x 8 Douglas Fir-Larch No. 2 03: FLOOR-M Member Name Results Current Solution Comments 1 Passed 1 Piece(s) 4 x 8 Douglas Fir-Larch No. 2 2 Passed 1 Piece(s) 2 x 10 Hem-Fir No. 2 @ 16" OC 2694.4te JOB SUMMARY REPORT Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 1 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 1 piece(s) 4 x 8 Douglas Fir-Larch No. 2 Bearing Loads to Supports (lbs) Supports Total Available Required Dead Snow Total Accessories 1 - Trimmer - HF 1.50"1.50"1.50"473 760 1233 None 2 - Trimmer - HF 1.50"1.50"1.50"473 760 1233 None All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs)1233 @ 0 3281 (1.50")Passed (38%)--1.0 D + 1.0 S (All Spans) Shear (lbs)891 @ 8 3/4"3502 Passed (25%)1.15 1.0 D + 1.0 S (All Spans) Moment (Ft-lbs)1618 @ 2' 7 1/2"3438 Passed (47%)1.15 1.0 D + 1.0 S (All Spans) Live Load Defl. (in)0.028 @ 2' 7 1/2"0.175 Passed (L/999+)--1.0 D + 1.0 S (All Spans) Total Load Defl. (in)0.045 @ 2' 7 1/2"0.262 Passed (L/999+)--1.0 D + 1.0 S (All Spans) System : Wall Member Type : Header Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Deflection criteria: LL (L/360) and TL (L/240). Top Edge Bracing (Lu): Top compression edge must be braced at 5' 3" o/c unless detailed otherwise. Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 5' 3" o/c unless detailed otherwise. Applicable calculations are based on NDS. ROOF, 1MEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by RHD Weyerhaeuser Notes Tributary Dead Snow Loads Location (Side)Width (0.90)(1.15)Comments 0 - Self Weight (PLF)0 to 5' 3"N/A 6.4 1 - Uniform (PSF)0 to 5' 3"11' 7"15.0 25.0 Snow Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 2 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 1 piece(s) 4 x 8 Douglas Fir-Larch No. 2 Bearing Loads to Supports (lbs) Supports Total Available Required Dead Snow Total Accessories 1 - Trimmer - HF 1.50"1.50"1.50"693 1126 1819 None 2 - Trimmer - HF 1.50"1.50"1.50"405 646 1051 None All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs)1818 @ 0 3281 (1.50")Passed (55%)--1.0 D + 1.0 S (All Spans) Shear (lbs)1476 @ 8 3/4"3502 Passed (42%)1.15 1.0 D + 1.0 S (All Spans) Moment (Ft-lbs)2660 @ 1' 11 1/2"3438 Passed (77%)1.15 1.0 D + 1.0 S (All Spans) Live Load Defl. (in)0.039 @ 2' 6 1/16"0.175 Passed (L/999+)--1.0 D + 1.0 S (All Spans) Total Load Defl. (in)0.063 @ 2' 6 1/16"0.262 Passed (L/997)--1.0 D + 1.0 S (All Spans) System : Wall Member Type : Header Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Deflection criteria: LL (L/360) and TL (L/240). Top Edge Bracing (Lu): Top compression edge must be braced at 5' 3" o/c unless detailed otherwise. Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 5' 3" o/c unless detailed otherwise. Applicable calculations are based on NDS. ROOF, 2MEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by RHD Weyerhaeuser Notes Tributary Dead Snow Loads Location (Side)Width (0.90)(1.15)Comments 0 - Self Weight (PLF)0 to 5' 3"N/A 6.4 1 - Point (lb)1' 11 1/2"N/A 536 893 Snow 2 - Uniform (PSF)0 to 1' 11 1/2"11' 7"15.0 25.0 3 - Tapered (PSF)1' 11 1/2" to 5' 3"4' 7" to 3'15.0 25.0 Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 3 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 1 piece(s) 4 x 8 Douglas Fir-Larch No. 2 Bearing Loads to Supports (lbs) Supports Total Available Required Dead Snow Total Accessories 1 - Trimmer - HF 1.50"1.50"1.50"892 1442 2334 None 2 - Trimmer - HF 1.50"1.50"1.50"331 508 839 None All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs)2334 @ 0 3281 (1.50")Passed (71%)--1.0 D + 1.0 S (All Spans) Shear (lbs)1031 @ 8 3/4"3502 Passed (29%)1.15 1.0 D + 1.0 S (All Spans) Moment (Ft-lbs)1857 @ 3' 9 7/8"3438 Passed (54%)1.15 1.0 D + 1.0 S (All Spans) Live Load Defl. (in)0.079 @ 4' 9/16"0.275 Passed (L/999+)--1.0 D + 1.0 S (All Spans) Total Load Defl. (in)0.131 @ 4' 9/16"0.313 Passed (L/758)--1.0 D + 1.0 S (All Spans) System : Wall Member Type : Header Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Deflection criteria: LL (L/360) and TL (5/16"). Top Edge Bracing (Lu): Top compression edge must be braced at 8' 3" o/c unless detailed otherwise. Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 8' 3" o/c unless detailed otherwise. Applicable calculations are based on NDS. ROOF, 3MEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by RHD Weyerhaeuser Notes Tributary Dead Snow Loads Location (Side)Width (0.90)(1.15)Comments 0 - Self Weight (PLF)0 to 8' 3"N/A 6.4 1 - Point (lb)3 1/2"N/A 603 1005 Snow 2 - Uniform (PSF)0 to 8' 3"4' 7"15.0 25.0 Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 4 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 1 piece(s) 4 x 8 Douglas Fir-Larch No. 2 Bearing Loads to Supports (lbs) Supports Total Available Required Dead Snow Total Accessories 1 - Trimmer - HF 1.50"1.50"1.50"-2 34/-52 34/-54 None 2 - Trimmer - HF 3.00"3.00"1.50"690 1120 1810 None 3 - Trimmer - HF 1.50"1.50"1.50"150 246 396 None All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs)1810 @ 2' 3"6563 (3.00")Passed (28%)--1.0 D + 1.0 S (All Spans) Shear (lbs)900 @ 2' 11 3/4"3502 Passed (26%)1.15 1.0 D + 1.0 S (All Spans) Moment (Ft-lbs)405 @ 2' 9 1/2"3438 Passed (12%)1.15 1.0 D + 1.0 S (Alt Spans) Live Load Defl. (in)0.001 @ 3' 4 5/8"0.078 Passed (L/999+)--1.0 D + 1.0 S (Alt Spans) Total Load Defl. (in)0.002 @ 3' 4 5/8"0.117 Passed (L/999+)--1.0 D + 1.0 S (Alt Spans) System : Wall Member Type : Header Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Deflection criteria: LL (L/360) and TL (L/240). Top Edge Bracing (Lu): Top compression edge must be braced at 4' 7" o/c unless detailed otherwise. Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 4' 7" o/c unless detailed otherwise. Applicable calculations are based on NDS. ROOF, 4MEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by RHD Weyerhaeuser Notes Tributary Dead Snow Loads Location (Side)Width (0.90)(1.15)Comments 0 - Self Weight (PLF)0 to 4' 7"N/A 6.4 1 - Point (lb)2' 9 1/2"N/A 536 893 Snow 2 - Uniform (PSF)2' 9 1/2" to 4' 7"4' 7"15.0 25.0 3 - Tapered (PSF)0 to 2' 9 1/2"2' 11" to 4' 3"15.0 25.0 Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 5 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 1 piece(s) 4 x 10 Douglas Fir-Larch No. 2 Bearing Loads to Supports (lbs) Supports Total Available Required Dead Snow Total Accessories 1 - Trimmer - HF 1.50"1.50"1.50"734 1153 1887 None 2 - Trimmer - HF 1.50"1.50"1.50"734 1153 1887 None All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs)1887 @ 0 3281 (1.50")Passed (58%)--1.0 D + 1.0 S (All Spans) Shear (lbs)1557 @ 10 3/4"4468 Passed (35%)1.15 1.0 D + 1.0 S (All Spans) Moment (Ft-lbs)4836 @ 5' 1 1/2"5166 Passed (94%)1.15 1.0 D + 1.0 S (All Spans) Live Load Defl. (in)0.151 @ 5' 1 1/2"0.342 Passed (L/813)--1.0 D + 1.0 S (All Spans) Total Load Defl. (in)0.248 @ 5' 1 1/2"0.512 Passed (L/497)--1.0 D + 1.0 S (All Spans) System : Wall Member Type : Header Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Deflection criteria: LL (L/360) and TL (L/240). Top Edge Bracing (Lu): Top compression edge must be braced at 10' 3" o/c unless detailed otherwise. Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 10' 3" o/c unless detailed otherwise. Applicable calculations are based on NDS. ROOF, 5MEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by RHD Weyerhaeuser Notes Tributary Dead Snow Loads Location (Side)Width (0.90)(1.15)Comments 0 - Self Weight (PLF)0 to 10' 3"N/A 8.2 1 - Uniform (PSF)0 to 10' 3"9'15.0 25.0 Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 6 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 1 piece(s) 11 7/8" TJI® 210 @ 16" OC Rim Board is assumed to carry all loads applied directly above it, bypassing the member being designed. At hanger supports, the Total Bearing dimension is equal to the width of the material that is supporting the hanger ¹ See Connector grid below for additional information and/or requirements. ² Required Bearing Length / Required Bearing Length with Web Stiffeners Bearing Loads to Supports (lbs) Supports Total Available Required Dead Floor Live Total Accessories 1 - Hanger on 11 7/8" PSL beam 3.50"Hanger¹1.75" / 1.75" ²159 531 690 See note ¹ 2 - Stud wall - HF 5.50"4.25"1.75"161 536 697 1 1/4" Rim Board All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs)670 @ 3 1/2"1005 (1.75")Passed (67%)1.00 1.0 D + 1.0 L (All Spans) Shear (lbs)670 @ 3 1/2"1655 Passed (40%)1.00 1.0 D + 1.0 L (All Spans) Moment (Ft-lbs)3239 @ 9' 11 1/2"3795 Passed (85%)1.00 1.0 D + 1.0 L (All Spans) Live Load Defl. (in)0.478 @ 9' 11 1/2"0.644 Passed (L/486)--1.0 D + 1.0 L (All Spans) Total Load Defl. (in)0.621 @ 9' 11 1/2"0.967 Passed (L/374)--1.0 D + 1.0 L (All Spans) TJ-ProRating 38 Any Passed ---- System : Floor Member Type : Joist Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Deflection criteria: LL (L/360) and TL (L/240). Top Edge Bracing (Lu): Top compression edge must be braced at 3' 11" o/c unless detailed otherwise. Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 19' 7" o/c unless detailed otherwise. A structural analysis of the deck has not been performed. Deflection analysis is based on composite action with a single layer of 23/32" Weyerhaeuser EdgePanel (24" Span Rating) that is glued and nailed down. Additional considerations for the TJ-ProRating include: 5/8" Gypsum ceiling. FLOOR-U, 1MEMBER REPORT PASSED Connector: Simpson Strong-Tie Connectors Support Model Seat Length Top Nails Face Nails Member Nails Accessories 1 - Face Mount Hanger IUS2.06/11.88 2.00"N/A 10-10d 2-Strong-Grip None Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by RHD Weyerhaeuser Notes Dead Floor Live Loads Location (Side)Spacing (0.90)(1.00)Comments 1 - Uniform (PSF)0 to 20'16"12.0 40.0 Residential - Living Areas Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 7 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 1 piece(s) 11 7/8" TJI® 110 @ 16" OC Rim Board is assumed to carry all loads applied directly above it, bypassing the member being designed. Blocking Panels are assumed to carry no loads applied directly above them and the full load is applied to the member being designed. Bearing Loads to Supports (lbs) Supports Total Available Required Dead Floor Live Total Accessories 1 - Stud wall - HF 5.50"4.25"1.75"71 271/-28 342/-28 1 1/4" Rim Board 2 - Stud wall - HF 3.50"3.50"3.50"213 708 921 Blocking 3 - Stud wall - HF 5.50"4.25"1.75"68 265/-32 333/-32 1 1/4" Rim Board All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs)921 @ 11' 2"1935 (3.50")Passed (48%)1.00 1.0 D + 1.0 L (All Spans) Shear (lbs)435 @ 11' 1/4"1716 Passed (25%)1.00 1.0 D + 1.0 L (All Spans) Moment (Ft-lbs)-979 @ 11' 2"3160 Passed (31%)1.00 1.0 D + 1.0 L (All Spans) Live Load Defl. (in)0.048 @ 5' 5 5/8"0.360 Passed (L/999+)--1.0 D + 1.0 L (Alt Spans) Total Load Defl. (in)0.058 @ 5' 4 9/16"0.540 Passed (L/999+)--1.0 D + 1.0 L (Alt Spans) TJ-ProRating 64 Any Passed ---- System : Floor Member Type : Joist Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Deflection criteria: LL (L/360) and TL (L/240). Top Edge Bracing (Lu): Top compression edge must be braced at 6' 9" o/c unless detailed otherwise. Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 5' 10" o/c unless detailed otherwise. A structural analysis of the deck has not been performed. Deflection analysis is based on composite action with a single layer of 23/32" Weyerhaeuser EdgePanel (24" Span Rating) that is glued and nailed down. Additional considerations for the TJ-ProRating include: 5/8" Gypsum ceiling. FLOOR-U, 2MEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by RHD Weyerhaeuser Notes Dead Floor Live Loads Location (Side)Spacing (0.90)(1.00)Comments 1 - Uniform (PSF)0 to 22'16"12.0 40.0 Residential - Living Areas Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 8 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 1 piece(s) 11 7/8" TJI® 110 @ 16" OC Rim Board is assumed to carry all loads applied directly above it, bypassing the member being designed. At hanger supports, the Total Bearing dimension is equal to the width of the material that is supporting the hanger ¹ See Connector grid below for additional information and/or requirements. ² Required Bearing Length / Required Bearing Length with Web Stiffeners Bearing Loads to Supports (lbs) Supports Total Available Required Dead Floor Live Total Accessories 1 - Hanger on 11 7/8" PSL beam 5.50"Hanger¹1.75" / 1.75" ²121 402 523 See note ¹ 2 - Stud wall - HF 5.50"4.25"1.75"119 398 517 1 1/4" Rim Board All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs)491 @ 5 1/2"910 (1.75")Passed (54%)1.00 1.0 D + 1.0 L (All Spans) Shear (lbs)491 @ 5 1/2"1560 Passed (31%)1.00 1.0 D + 1.0 L (All Spans) Moment (Ft-lbs)1739 @ 7' 6 1/2"3160 Passed (55%)1.00 1.0 D + 1.0 L (All Spans) Live Load Defl. (in)0.168 @ 7' 6 1/2"0.472 Passed (L/999+)--1.0 D + 1.0 L (All Spans) Total Load Defl. (in)0.218 @ 7' 6 1/2"0.708 Passed (L/779)--1.0 D + 1.0 L (All Spans) TJ-ProRating 50 Any Passed ---- System : Floor Member Type : Joist Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Deflection criteria: LL (L/360) and TL (L/240). Top Edge Bracing (Lu): Top compression edge must be braced at 4' 3" o/c unless detailed otherwise. Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 14' 5" o/c unless detailed otherwise. A structural analysis of the deck has not been performed. Deflection analysis is based on composite action with a single layer of 23/32" Weyerhaeuser EdgePanel (24" Span Rating) that is glued and nailed down. Additional considerations for the TJ-ProRating include: 5/8" Gypsum ceiling. FLOOR-U, 3MEMBER REPORT PASSED Connector: Simpson Strong-Tie Connectors Support Model Seat Length Top Nails Face Nails Member Nails Accessories 1 - Face Mount Hanger IUS1.81/11.88 2.00"N/A 10-10d 2-Strong-Grip None Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by RHD Weyerhaeuser Notes Dead Floor Live Loads Location (Side)Spacing (0.90)(1.00)Comments 1 - Uniform (PSF)0 to 15'16"12.0 40.0 Residential - Living Areas Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 9 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 1 piece(s) 5 1/2" x 15" 24F-V4 DF Glulam Rim Board is assumed to carry all loads applied directly above it, bypassing the member being designed. Bearing Loads to Supports (lbs) Supports Total Available Required Dead Floor Live Snow Total Accessories 1 - Stud wall - HF 5.50"4.25"3.70"3756 3015 3083 9854 1 1/4" Rim Board 2 - Stud wall - HF 5.50"4.25"3.70"3756 3015 3083 9854 1 1/4" Rim Board All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs)8245 @ 4"9467 (4.25")Passed (87%)--1.0 D + 0.75 L + 0.75 S (All Spans) Shear (lbs)6908 @ 1' 8 1/2"16761 Passed (41%)1.15 1.0 D + 0.75 L + 0.75 S (All Spans) Pos Moment (Ft-lbs)38928 @ 9' 10 3/4"46447 Passed (84%)1.15 1.0 D + 0.75 L + 0.75 S (All Spans) Live Load Defl. (in)0.516 @ 10'0.644 Passed (L/449)--1.0 D + 0.75 L + 0.75 S (All Spans) Total Load Defl. (in)0.941 @ 10'0.967 Passed (L/247)--1.0 D + 0.75 L + 0.75 S (All Spans) System : Floor Member Type : Flush Beam Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Deflection criteria: LL (L/360) and TL (L/240). Top Edge Bracing (Lu): Top compression edge must be braced at 19' 10" o/c unless detailed otherwise. Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 19' 10" o/c unless detailed otherwise. Critical positive moment adjusted by a volume factor of 0.98 that was calculated using length L = 19' 4". The effects of positive or negative camber have not been accounted for when calculating deflection. The specified glulam is assumed to have its strong laminations at the bottom of the beam. Install with proper side up as indicated by the manufacturer. Applicable calculations are based on NDS. FLOOR-U, 4MEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by RHD Weyerhaeuser Notes Tributary Dead Floor Live Snow Loads Location (Side)Width (0.90)(1.00)(1.15)Comments 0 - Self Weight (PLF)1 1/4" to 19' 10 3/4"N/A 20.0 1 - Uniform (PSF)0 to 20' (Top)8'10.0 -- 2 - Uniform (PSF)0 to 20' (Top)9'15.0 -25.0 3 - Uniform (PSF)0 to 20' (Top)3' 4"15.0 -25.0 4 - Uniform (PLF)0 to 20' (Back)N/A 90.8 301.5 -Linked from: 3, Support 1 Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 10 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 1 piece(s) 5 1/2" x 12" 24F-V4 DF Glulam Bearing Loads to Supports (lbs) Supports Total Available Required Dead Snow Total Accessories 1 - Trimmer - HF 3.00"3.00"1.50"764 1042 1806 None 2 - Trimmer - HF 3.00"3.00"1.50"764 1042 1806 None All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs)1806 @ 1 1/2"10725 (3.00")Passed (17%)--1.0 D + 1.0 S (All Spans) Shear (lbs)1544 @ 1' 3"13409 Passed (12%)1.15 1.0 D + 1.0 S (All Spans) Pos Moment (Ft-lbs)7564 @ 8' 7 1/2"30360 Passed (25%)1.15 1.0 D + 1.0 S (All Spans) Live Load Defl. (in)0.159 @ 8' 7 1/2"0.567 Passed (L/999+)--1.0 D + 1.0 S (All Spans) Total Load Defl. (in)0.276 @ 8' 7 1/2"0.850 Passed (L/739)--1.0 D + 1.0 S (All Spans) System : Wall Member Type : Header Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Deflection criteria: LL (L/360) and TL (L/240). Top Edge Bracing (Lu): Top compression edge must be braced at 17' 3" o/c unless detailed otherwise. Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 17' 3" o/c unless detailed otherwise. Critical positive moment adjusted by a volume factor of 1.00 that was calculated using length L = 17'. The effects of positive or negative camber have not been accounted for when calculating deflection. The specified glulam is assumed to have its strong laminations at the bottom of the beam. Install with proper side up as indicated by the manufacturer. Applicable calculations are based on NDS. FLOOR-U, 5MEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by RHD Weyerhaeuser Notes Tributary Dead Snow Loads Location (Side)Width (0.90)(1.15)Comments 0 - Self Weight (PLF)0 to 17' 3"N/A 16.0 1 - Uniform (PSF)0 to 17' 3"4' 10"15.0 25.0 Snow Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 11 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 1 piece(s) 3 1/2" x 11 7/8" 2.2E Parallam® PSL Blocking Panels are assumed to carry no loads applied directly above them and the full load is applied to the member being designed. Bearing Loads to Supports (lbs) Supports Total Available Required Dead Floor Live Snow Total Accessories 1 - Stud wall - HF 5.50"5.50"5.30"3236 1940/-169 3763 8939/-169 Blocking 2 - Column - DF 5.50"5.50"5.50"4928 4841 4625 14394 Blocking 3 - Stud wall - HF 3.50"3.50"1.50"212 1624/-337 -245 1836/-582 Blocking All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs)12027 @ 10' 10"12031 (5.50")Passed (100%)--1.0 D + 0.75 L + 0.75 S (All Spans) Shear (lbs)3946 @ 9' 7 3/8"8035 Passed (49%)1.00 1.0 D + 1.0 L (All Spans) Moment (Ft-lbs)-8234 @ 10' 10"19902 Passed (41%)1.00 1.0 D + 1.0 L (All Spans) Live Load Defl. (in)0.107 @ 5' 3 1/8"0.350 Passed (L/999+)--1.0 D + 0.75 L + 0.75 S (Alt Spans) Total Load Defl. (in)0.180 @ 5' 2 11/16"0.525 Passed (L/699)--1.0 D + 0.75 L + 0.75 S (Alt Spans) System : Floor Member Type : Flush Beam Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Deflection criteria: LL (L/360) and TL (L/240). Top Edge Bracing (Lu): Top compression edge must be braced at 19' 10" o/c unless detailed otherwise. Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 19' 10" o/c unless detailed otherwise. -225 lbs uplift at support 19' 8". Strapping or other restraint may be required. FLOOR-U, 6MEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by RHD Weyerhaeuser Notes Tributary Dead Floor Live Snow Loads Location (Side)Width (0.90)(1.00)(1.15)Comments 0 - Self Weight (PLF)0 to 19' 10"N/A 13.0 1 - Uniform (PSF)0 to 10' 10" (Top)11' 7"15.0 -25.0 2 - Point (lb)10' 9" (Top)N/A 1592 -2653 3 - Uniform (PSF)0 to 10' 10" (Top)8'10.0 -- 4 - Point (lb)3" (Top)N/A 1412 -2353 5 - Uniform (PLF)0 to 19' 10" (Back)N/A 119.3 398.3 -Linked from: 1, Support 1 Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 12 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 1 piece(s) 4 x 10 Douglas Fir-Larch No. 2 Bearing Loads to Supports (lbs) Supports Total Available Required Dead Floor Live Snow Total Accessories 1 - Trimmer - HF 1.50"1.50"1.50"795 921 258 1974 None 2 - Trimmer - HF 1.50"1.50"1.50"795 921 258 1974 None All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs)1716 @ 0 3281 (1.50")Passed (52%)--1.0 D + 1.0 L (All Spans) Shear (lbs)1343 @ 10 3/4"3885 Passed (35%)1.00 1.0 D + 1.0 L (All Spans) Moment (Ft-lbs)3540 @ 4' 1 1/2"4492 Passed (79%)1.00 1.0 D + 1.0 L (All Spans) Live Load Defl. (in)0.063 @ 4' 1 1/2"0.275 Passed (L/999+)--1.0 D + 1.0 L (All Spans) Total Load Defl. (in)0.117 @ 4' 1 1/2"0.412 Passed (L/843)--1.0 D + 1.0 L (All Spans) System : Wall Member Type : Header Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Deflection criteria: LL (L/360) and TL (L/240). Top Edge Bracing (Lu): Top compression edge must be braced at 8' 3" o/c unless detailed otherwise. Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 8' 3" o/c unless detailed otherwise. Applicable calculations are based on NDS. FLOOR-U, 7MEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by RHD Weyerhaeuser Notes Tributary Dead Floor Live Snow Loads Location (Side)Width (0.90)(1.00)(1.15)Comments 0 - Self Weight (PLF)0 to 8' 3"N/A 8.2 1 - Uniform (PSF)0 to 8' 3"2' 6"15.0 -25.0 2 - Uniform (PSF)0 to 8' 3"8'10.0 -- 3 - Uniform (PSF)0 to 8' 3"5' 7"12.0 40.0 - Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 13 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 1 piece(s) 5 1/2" x 10 1/2" 24F-V4 DF Glulam Bearing Loads to Supports (lbs) Supports Total Available Required Dead Floor Live Snow Total Accessories 1 - Trimmer - HF 1.50"1.50"1.50"2211 2060 1850 6121 None 2 - Trimmer - HF 1.50"1.50"1.50"2145 2060 1740 5945 None All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs)5144 @ 0 5363 (1.50")Passed (96%)--1.0 D + 0.75 L + 0.75 S (All Spans) Shear (lbs)4517 @ 1'11733 Passed (38%)1.15 1.0 D + 0.75 L + 0.75 S (All Spans) Pos Moment (Ft-lbs)13749 @ 4' 8 15/16"23244 Passed (59%)1.15 1.0 D + 0.75 L + 0.75 S (All Spans) Live Load Defl. (in)0.155 @ 5' 3/4"0.342 Passed (L/791)--1.0 D + 0.75 L + 0.75 S (All Spans) Total Load Defl. (in)0.273 @ 5' 3/4"0.512 Passed (L/451)--1.0 D + 0.75 L + 0.75 S (All Spans) System : Wall Member Type : Header Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Deflection criteria: LL (L/360) and TL (L/240). Top Edge Bracing (Lu): Top compression edge must be braced at 10' 3" o/c unless detailed otherwise. Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 10' 3" o/c unless detailed otherwise. Critical positive moment adjusted by a volume factor of 1.00 that was calculated using length L = 10' 3". The effects of positive or negative camber have not been accounted for when calculating deflection. The specified glulam is assumed to have its strong laminations at the bottom of the beam. Install with proper side up as indicated by the manufacturer. Applicable calculations are based on NDS. FLOOR-U, 8MEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by RHD Weyerhaeuser Notes Tributary Dead Floor Live Snow Loads Location (Side)Width (0.90)(1.00)(1.15)Comments 0 - Self Weight (PLF)0 to 10' 3"N/A 14.0 1 - Point (lb)2' 10 1/2"N/A 709 -1182 2 - Uniform (PSF)0 to 10' 3"8'10.0 -- 3 - Uniform (PSF)2' 10 1/2" to 10' 3"11' 7"15.0 -25.0 4 - Tapered (PSF)0 to 2' 10 1/2"3' to 4' 7"15.0 -25.0 5 - Uniform (PLF)0 to 10' 3"N/A 120.8 402.0 -Linked from: 1, Support 2 Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 14 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 1 piece(s) 5 1/2" x 10 1/2" 24F-V4 DF Glulam Bearing Loads to Supports (lbs) Supports Total Available Required Dead Floor Live Snow Total Accessories 1 - Trimmer - HF 1.50"1.50"1.50"1603 1658 1195 4456 None 2 - Trimmer - HF 1.50"1.50"1.50"1603 1658 1195 4456 None All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs)3742 @ 0 5363 (1.50")Passed (70%)--1.0 D + 0.75 L + 0.75 S (All Spans) Shear (lbs)2470 @ 1'10203 Passed (24%)1.00 1.0 D + 1.0 L (All Spans) Pos Moment (Ft-lbs)6726 @ 4' 1 1/2"20213 Passed (33%)1.00 1.0 D + 1.0 L (All Spans) Live Load Defl. (in)0.057 @ 4' 1 1/2"0.275 Passed (L/999+)--1.0 D + 0.75 L + 0.75 S (All Spans) Total Load Defl. (in)0.099 @ 4' 1 1/2"0.412 Passed (L/999+)--1.0 D + 0.75 L + 0.75 S (All Spans) System : Wall Member Type : Header Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Deflection criteria: LL (L/360) and TL (L/240). Top Edge Bracing (Lu): Top compression edge must be braced at 8' 3" o/c unless detailed otherwise. Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 8' 3" o/c unless detailed otherwise. Critical positive moment adjusted by a volume factor of 1.00 that was calculated using length L = 8' 3". The effects of positive or negative camber have not been accounted for when calculating deflection. The specified glulam is assumed to have its strong laminations at the bottom of the beam. Install with proper side up as indicated by the manufacturer. Applicable calculations are based on NDS. FLOOR-U, 9MEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by RHD Weyerhaeuser Notes Tributary Dead Floor Live Snow Loads Location (Side)Width (0.90)(1.00)(1.15)Comments 0 - Self Weight (PLF)0 to 8' 3"N/A 14.0 1 - Uniform (PSF)0 to 8' 3"8'10.0 -- 2 - Uniform (PSF)0 to 8' 3"11' 7"15.0 -25.0 3 - Uniform (PLF)0 to 8' 3"N/A 120.8 402.0 -Linked from: 1, Support 2 Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 15 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 1 piece(s) 4 x 8 Douglas Fir-Larch No. 2 Bearing Loads to Supports (lbs) Supports Total Available Required Dead Floor Live Snow Total Accessories 1 - Trimmer - HF 1.50"1.50"1.50"809 854 615 2278 None 2 - Trimmer - HF 1.50"1.50"1.50"809 854 615 2278 None All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs)1912 @ 0 3281 (1.50")Passed (58%)--1.0 D + 0.75 L + 0.75 S (All Spans) Shear (lbs)1093 @ 8 3/4"3045 Passed (36%)1.00 1.0 D + 1.0 L (All Spans) Moment (Ft-lbs)1768 @ 2' 1 1/2"2989 Passed (59%)1.00 1.0 D + 1.0 L (All Spans) Live Load Defl. (in)0.021 @ 2' 1 1/2"0.142 Passed (L/999+)--1.0 D + 0.75 L + 0.75 S (All Spans) Total Load Defl. (in)0.037 @ 2' 1 1/2"0.213 Passed (L/999+)--1.0 D + 0.75 L + 0.75 S (All Spans) System : Wall Member Type : Header Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Deflection criteria: LL (L/360) and TL (L/240). Top Edge Bracing (Lu): Top compression edge must be braced at 4' 3" o/c unless detailed otherwise. Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 4' 3" o/c unless detailed otherwise. Applicable calculations are based on NDS. FLOOR-U, 10MEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by RHD Weyerhaeuser Notes Tributary Dead Floor Live Snow Loads Location (Side)Width (0.90)(1.00)(1.15)Comments 0 - Self Weight (PLF)0 to 4' 3"N/A 6.4 1 - Uniform (PSF)0 to 4' 3"8'10.0 -- 2 - Uniform (PSF)0 to 4' 3"11' 7"15.0 -25.0 3 - Uniform (PLF)0 to 4' 3"N/A 120.8 402.0 -Linked from: 1, Support 2 Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 16 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 1 piece(s) 4 x 8 Douglas Fir-Larch No. 2 Blocking Panels are assumed to carry no loads applied directly above them and the full load is applied to the member being designed. Bearing Loads to Supports (lbs) Supports Total Available Required Dead Floor Live Total Accessories 1 - Column - HF 3.00"3.00"2.25"1323 3590 4913 Blocking 2 - Column - HF 3.00"3.00"2.68"1405 4451 5856 Blocking 3 - Column - HF 3.00"3.00"2.69"1474 4401 5875 Blocking 4 - Column - HF 3.00"3.00"2.06"1046 3451 4497 Blocking 5 - Column - HF 3.00"3.00"1.50"655 2589 3244 Blocking 6 - Column - HF 3.00"3.00"1.51"695 2597 3292 Blocking 7 - Column - HF 3.00"3.00"1.50"682 2578 3260 Blocking 8 - Column - HF 3.00"3.00"1.50"694 2592 3286 Blocking 9 - Column - HF 3.00"3.00"1.50"662 2537 3199 Blocking 10 - Column - HF 3.00"3.00"1.57"778 2659 3437 Blocking 11 - Column - HF 3.00"3.00"1.50"288 1031/-115 1319/-115 Blocking All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs)5875 @ 10' 1"6563 (3.00")Passed (90%)--1.0 D + 1.0 L (Adj Spans) Shear (lbs)2081 @ 5' 2 1/4"3045 Passed (68%)1.00 1.0 D + 1.0 L (Adj Spans) Moment (Ft-lbs)-2311 @ 10' 1"2989 Passed (77%)1.00 1.0 D + 1.0 L (Adj Spans) Live Load Defl. (in)0.047 @ 0 0.200 Passed (2L/894)--1.0 D + 1.0 L (Alt Spans) Total Load Defl. (in)0.051 @ 0 0.200 Passed (2L/818)--1.0 D + 1.0 L (Alt Spans) System : Floor Member Type : Drop Beam Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Deflection criteria: LL (L/360) and TL (L/240). Overhang deflection criteria: LL (0.2") and TL (0.2"). Top Edge Bracing (Lu): Top compression edge must be braced at 49' 1" o/c unless detailed otherwise. Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 49' 1" o/c unless detailed otherwise. Applicable calculations are based on NDS. FLOOR-M, 1MEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by RHD Weyerhaeuser Notes Tributary Dead Floor Live Loads Location (Side)Width (0.90)(1.00)Comments 0 - Self Weight (PLF)0 to 49' 1"N/A 6.4 1 - Uniform (PSF)0 to 49' 1" (Top)11'12.0 40.0 Residential - Living Areas 2 - Uniform (PSF)0 to 14' 3" (Top)11'12.0 40.0 Residential - Living Areas 3 - Uniform (PSF)0 to 14' 3" (Top)9'8.0 -Residential - Living Areas Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 17 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 1 piece(s) 2 x 10 Hem-Fir No. 2 @ 16" OC Rim Board is assumed to carry all loads applied directly above it, bypassing the member being designed. Bearing Loads to Supports (lbs) Supports Total Available Required Dead Floor Live Total Accessories 1 - Plate on concrete - HF 5.50"4.00"1.50"92 307 399 1 1/2" Rim Board 2 - Plate on concrete - HF 5.50"4.00"1.50"92 307 399 1 1/2" Rim Board All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs)390 @ 4 1/2"2430 (4.00")Passed (16%)--1.0 D + 1.0 L (All Spans) Shear (lbs)313 @ 1' 2 3/4"1388 Passed (23%)1.00 1.0 D + 1.0 L (All Spans) Moment (Ft-lbs)1002 @ 5' 9"1917 Passed (52%)1.00 1.0 D + 1.0 L (All Spans) Live Load Defl. (in)0.125 @ 5' 9"0.358 Passed (L/999+)--1.0 D + 1.0 L (All Spans) Total Load Defl. (in)0.162 @ 5' 9"0.538 Passed (L/796)--1.0 D + 1.0 L (All Spans) TJ-ProRating N/A N/A ------ System : Floor Member Type : Joist Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Deflection criteria: LL (L/360) and TL (L/240). Top Edge Bracing (Lu): Top compression edge must be braced at 11' 3" o/c unless detailed otherwise. Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 11' 3" o/c unless detailed otherwise. A 15% increase in the moment capacity has been added to account for repetitive member usage. Applicable calculations are based on NDS. No composite action between deck and joist was considered in analysis. FLOOR-M, 2MEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by RHD Weyerhaeuser Notes Dead Floor Live Loads Location (Side)Spacing (0.90)(1.00)Comments 1 - Uniform (PSF)0 to 11' 6"16"12.0 40.0 Residential - Living Areas Forte v5.4, Design Engine: V7.1.1.3 1/21/2019 11:32:11 AM Page 18 of 18 2694.4te Forte Software Operator Eric Rice ELR Engineering (206) 200-8764 elreng33@gmail.com Job Notes Plan 2694 Renton/Chelan/Lot 11 Wood Column Licensee : ELR EngineeringLic. # : KW-06010691 Description :))>UPPER FLOOR framing member = post for member 6 ELR Engineering 1915 Dayton Ave NE Renton, WA 98056 phone: 206.200.8764 email: elreng33@gmail.com Software copyright ENERCALC, INC. 1983-2018, Build:10.18.12.30 . File = C:\Dropbox\ELRENG~1\ELR_PR~1\2019\1_RUEP~1\JKMONA~1\RENTON~1\LOT11~1\Enercalc\2694.ec6 . Project Title:Engineer:ELRProject ID: Printed: 21 JAN 2019, 11:27AM Project Descr: .Code References Calculations per NDS 2015, IBC 2015, CBC 2016, ASCE 7-10 Load Combinations Used : ASCE 7-10 General Information Wood Section Name 4x6Analysis Method : 9.0Overall Column Height ft Allowable Stress Design ( Used for non-slender calculations )Allow Stress Modification Factors End Fixities Top & Bottom Pinned Wood Species Douglas Fir - Larch Wood Grade No.1 & Better Fb +1200 1200psi 1550 625 180 800 31.21 psi Fv psi Fb -Ft psi Fc - Prll psi psi Density pcf Fc - Perp E : Modulus of Elasticity . . . 1800 660 1800 660 Cfu : Flat Use Factor 1.0 Cf or Cv for Tension 1.30 Use Cr : Repetitive ? Kf : Built-up columns 1.0 NDS 15.3.2 Exact Width 3.50 in Exact Depth 5.50 in Area 19.250 in^2 Ix 48.526 in^4 Iy 19.651 in^4 Wood Grading/Manuf.Graded Lumber Wood Member Type Sawn Ct : Temperature Factor 1.0 Cf or Cv for Compression 1.10 1800 Axial Cm : Wet Use Factor 1.0 Cf or Cv for Bending 1.30 x-x Bending y-y Bending ksi NoMinimum Basic Y-Y (depth) axis : X-X (width) axis : Unbraced Length for buckling ABOUT X-X Axis = 8.17 ft, K = 1.0 Unbraced Length for buckling ABOUT Y-Y Axis = 8.17 ft, K = 1.0 Brace condition for deflection (buckling) along columns : .Service loads entered. Load Factors will be applied for calculations.Applied Loads Column self weight included : 37.550 lbs * Dead Load FactorAXIAL LOADS . . . Axial Load at 9.0 ft, D = 4.928, L = 4.841, S = 4.625 k .DESIGN SUMMARY PASS PASS Max. Axial+Bending Stress Ratio =0.9926 Location of max.above base 0.0 ft Applied Axial 12.065 k Applied Mx 0.0 k-ft Load Combination +D+0.750L+0.750S Load Combination +0.60D Bending & Shear Check Results Maximum Shear Stress Ratio = Applied Design Shear 0.0 psi 288.0Allowable Shear psi 0.0 : 1 Bending Compression Tension Location of max.above base 9.0 ft : 1 At maximum location values are . . . Applied My 0.0 k-ft Maximum SERVICE Lateral Load Reactions . .Top along Y-Y 0.0 k Bottom along Y-Y 0.0 k Top along X-X 0.0 k Bottom along X-X 0.0 kGoverning NDS Forumla Comp Only, fc/Fc' Maximum SERVICE Load Lateral Deflections . . . Along Y-Y 0.0 in at 0.0 ft above base for load combination :n/a Along X-X 0.0 in at 0.0 ft above base Fc : Allowable 631.44 psi Other Factors used to calculate allowable stresses . . . for load combination :n/a . Maximum Axial + Bending Stress Ratios Maximum Shear RatiosCDCLoad Combination Stress Ratio Location Stress Ratio Status LocationPStatus Load Combination Results D Only 0.900 PASS PASS0.0 0.0 9.0 ft0.398 ft0.4224+D+L 1.000 PASS PASS0.0 0.0 9.0 ft0.364 ft0.8211+D+S 1.150 PASS PASS0.0 0.0 9.0 ft0.322 ft0.7890+D+0.750L 1.250 PASS PASS0.0 0.0 9.0 ft0.299 ft0.7009+D+0.750L+0.750S 1.150 PASS PASS0.0 0.0 9.0 ft0.322 ft0.9926+0.60D 1.600 PASS PASS0.0 0.0 9.0 ft0.239 ft0.2379 . Wood Column Licensee : ELR EngineeringLic. # : KW-06010691 Description :))>UPPER FLOOR framing member = post for member 6 ELR Engineering 1915 Dayton Ave NE Renton, WA 98056 phone: 206.200.8764 email: elreng33@gmail.com Software copyright ENERCALC, INC. 1983-2018, Build:10.18.12.30 . File = C:\Dropbox\ELRENG~1\ELR_PR~1\2019\1_RUEP~1\JKMONA~1\RENTON~1\LOT11~1\Enercalc\2694.ec6 . Project Title:Engineer:ELRProject ID: Printed: 21 JAN 2019, 11:27AM Project Descr: Sketches ELR Engineering 1915 Dayton Ave NE Renton, WA 98056 phone: (206) 200-8764 email: elreng33@gmail.com Lateral Calculations ASCE Seismic Base Shear Licensee : ELR EngineeringLic. # : KW-06010691 ELR Engineering 1915 Dayton Ave NE Renton, WA 98056 phone: 206.200.8764 email: elreng33@gmail.com Software copyright ENERCALC, INC. 1983-2018, Build:10.18.12.30 . File = C:\Dropbox\ELRENG~1\ELR_PR~1\2019\1_RUEP~1\JKMONA~1\RENTON~1\LOT11~1\Enercalc\2694.ec6 . Project Title:Engineer:ELRProject ID: Printed: 21 JAN 2019, 7:17AM Project Descr: Risk Category ASCE 7-10, Page 2, Table 1.5-1 Calculations per ASCE 7-10 "II" : All Buildings and other structures except those listed as Category I, III, and IVRisk Category of Building or Other Structure : Seismic Importance Factor =1 ASCE 7-10, Page 5, Table 1.5-2 > Seismic load design values Gridded Ss & S1values ASCE-7-10 Standard ASCE 7-10 11.4.1 Longitude =122.157 deg West Latitude =47.500 deg NorthMax. Ground Motions, 5% Damping : S =1.398S g, 0.2 sec response S 0.52621 g, 1.0 sec response= Site Class, Site Coeff. and Design Category Site Classification ASCE 7-10 Table 20.3-1"D" : Shear Wave Velocity 600 to 1,200 ft/sec =D Site Coefficients Fa & Fv ASCE 7-10 Table 11.4-1 & 11.4-2 (using straight-line interpolation from table values) Fa =1.00 Fv =1.50 Maximum Considered Earthquake Acceleration ASCE 7-10 Eq. 11.4-1S = Fa * Ss 1.398=MSS = Fv * S1 =0.789M1 ASCE 7-10 Eq. 11.4-2 Design Spectral Acceleration ASCE 7-10 Eq. 11.4-3S = S * 2/3 =0.932DSMS =0.526 ASCE 7-10 Eq. 11.4-4S = S * 2/3D1M1 Seismic Design Category ASCE 7-10 Table 11.6-1 & -2=D Resisting System ASCE 7-10 Table 12.2-1 Basic Seismic Force Resisting System . . .Bearing Wall Systems 13.Light-frame (wood) walls sheathed w/wood structural panels rated for shear resistance. NOTE! See ASCE 7-10 for all applicable footnotes. Building height Limits :Response Modification Coefficient " R "=6.50 Category "A & B" Limit:No LimitSystem Overstrength Factor " Wo "=3.00 Category "C" Limit:No LimitDeflection Amplification Factor " Cd "=4.00 Category "D" Limit:Limit = 65 Category "E" Limit:Limit = 65 Category "F" Limit:Limit = 65 Lateral Force Procedure ASCE 7-10 Section 12.8.2 Equivalent Lateral Force Procedure The "Equivalent Lateral Force Procedure" is being used according to the provisions of ASCE 7-10 12.8 Use ASCE 12.8-7Determine Building Period Structure Type for Building Period Calculation :All Other Structural Systems " Ct " value 0.020= " x " value " hn " : Height from base to highest level =22.50 ft " Ta " Approximate fundemental period using Eq. 12.8-7 : 6.000"TL" : Long-period transition period per ASCE 7-10 Maps 22-12 -> 22-16 sec Ta = Ct * (hn ^ x) =0.207 0.75 sec = Building Period " Ta " Calculated from Approximate Method selected =0.207 sec " Cs " Response Coefficient ASCE 7-10 Section 12.8.1.1 S : Short Period Design Spectral Response 0.932 " R " : Response Modification Factor 6.50 " I " : Seismic Importance Factor =1 0.143From Eq. 12.8-2, Preliminary Cs = 0.392From Eq. 12.8-3 & 12.8-4 , Cs need not exceed = From Eq. 12.8-5 & 12.8-6, Cs not be less than =0.041 DS =Cs : Seismic Response Coefficient =0.1434 = = Seismic Base Shear ASCE 7-10 Section 12.8.1 W ( see Sum Wi below ) =84.71 kCs =0.1434 from 12.8.1.1 Seismic Base Shear V = Cs * W =12.15 k ASCE Seismic Base Shear Licensee : ELR EngineeringLic. # : KW-06010691 ELR Engineering 1915 Dayton Ave NE Renton, WA 98056 phone: 206.200.8764 email: elreng33@gmail.com Software copyright ENERCALC, INC. 1983-2018, Build:10.18.12.30 . File = C:\Dropbox\ELRENG~1\ELR_PR~1\2019\1_RUEP~1\JKMONA~1\RENTON~1\LOT11~1\Enercalc\2694.ec6 . Project Title:Engineer:ELRProject ID: Printed: 21 JAN 2019, 7:17AM Project Descr: Vertical Distribution of Seismic Forces ASCE 7-10 Section 12.8.3 " k " : hx exponent based on Ta =1.00 Table of building Weights by Floor Level... Wi : Weight Hi : Height (Wi * Hi^k)Cvx Fx=Cvx * V Sum Story Shear Sum Story MomentLevel # 2 39.11 19.63 767.53 0.6130 7.45 7.45 0.00 1 45.60 10.63 484.50 0.3870 4.70 12.15 67.01 Sum Wi =84.71 k Total Base Shear =12.15 k Base Moment = 1,252.03 k-ftSum Wi * Hi = 196.1k-ft Diaphragm Forces : Seismic Design Category "B" to "F"ASCE 7-10 12.10.1.1 Level #Wi Fi Fpx : MaxFpx : CalcdSum Fi Sum Wi Fpx Dsgn. ForceFpx : Min 2 39.11 7.45 7.45 39.11 7.45 7.29 14.58 7.45 7.45 1 45.60 4.70 12.15 84.71 6.54 8.50 17.00 8.50 8.50 Wpx . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Weight at level of diaphragm and other structure elements attached to it. Fi . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Design Lateral Force applied at the level. Sum Fi . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Sum of "Lat. Force" of current level plus all levels above 0.20 * S * I * WpxMIN Req'd Force @ Level . . . . . . . . . .DS DSMAX Req'd Force @ Level . . . . . . . . . .0.40 * S * I * Wpx Fpx : Design Force @ Level . . . . . . . . . .Wpx * SUM(x->n) Fi / SUM(x->n) wi, x = Current level, n = Top Level ASCE 7-10 Wind Forces, Chapter 27, Part I Licensee : ELR EngineeringLic. # : KW-06010691 Description :> ASCE 7-10 Wind Load Determination ELR Engineering 1915 Dayton Ave NE Renton, WA 98056 phone: 206.200.8764 email: elreng33@gmail.com Software copyright ENERCALC, INC. 1983-2018, Build:10.18.12.30 . File = C:\Dropbox\ELRENG~1\ELR_PR~1\2019\1_RUEP~1\JKMONA~1\RENTON~1\LOT11~1\Enercalc\2694.ec6 . Project Title:Engineer:ELRProject ID: Printed: 21 JAN 2019, 7:30AM Project Descr: > ASCE 7-10 wind forces Basic Values 2 110.0 0.850 Exposure B Exposure B Exposure B Exposure B 24.0 85.830 22.50 Risk Category V : Basic Wind Speed per ASCE 7-10 Table 1.5.1 Horizontal Dim. in North-South Direction (B or L) = Exposure Category per ASCE 7-10 Section 26.7 h : Mean Roof height =ftKd : Directionality Factor per ASCE 7-10 Table 26.6-1 Horizontal Dim. in East-West Direction (B or L) =ft North :East : South :West : Topographic Factor per ASCE 7-10 Sec 26.8 & Figure 26.8-1 North :K1 =K2 =K3 =Kzt = East :K1 =K2 =K3 = West :K1 =K2 =K3 = Kzt =1.000 Kzt =1.000 User has specified the building frequency is >= 1 Hz, therefore considered RIGID for both North-South and East-West directions. Building Period & Flexibility Category 1.000 ft South :K1 =K2 =K3 =Kzt =1.000 Building Story Data Level Description hi E : XStory Ht E : XR ft ft R ftft Upper 9.0019.63 0.000 0.000 Lower 10.6310.63 0.000 0.000 Gust Factor For wind coming from direction indicated North = East =0.850 West =0.850 0.850 South =0.850 Enclosure Check if Building Qualifies as "Open" 1,684.0 1,684.0 471.0 471.0 ft^2 Roof Total 1,824.0 ft^2 6,134.0 ft^2 ft^2 0.0 ft^2 North Wall South Wall East Wall West Wall ft^2Agrossft^2 ft^2 ft^2 Aopenings ft^2 ft^2 ft^2 Aopenings >= 0.8 * Agross ?No No No No Building does NOT qualify as "Open"All four Agross values must be non-zero User has specified the Building is to be considered Enclosed when NORTH elevation receives positive external pressure User has specified the Building is to be considered Enclosed when SOUTH elevation receives positive external pressure User has specified the Building is to be considered Enclosed when EAST elevation receives positive external pressure User has specified the Building is to be considered Enclosed when WEST elevation receives positive external pressure Velocity Pressures psf When the following walls experience leeward or sidewall pressures, the value of Kh shall be (per Table 27.3-1) : North Wall =0.6453 South Wall =0.6453 psf East Wall =0.6453psf West Wall =0.6453psf When the following walls experience leeward or sidewall pressures, the value of qh shall be (per Table 27.3-1) : North Wall =16.991 psf South Wall =16.991 psf East Wall =16.991psf West Wall =16.991psf qz : Windward Wall Velocity Pressures at various heights per Eq. 27.3-1 Height Above Base (ft) North Elevation East Elevation West Elevation Kz qz Kz qzKzqzKzqz South Elevation 0.575 15.130.00 0.57515.13 15.13 15.130.5750.575 0.575 15.135.00 0.57515.13 15.13 15.130.5750.575 0.575 15.1310.00 0.57515.13 15.13 15.130.5750.575 0.575 15.1315.00 0.57515.13 15.13 15.130.5750.575 ASCE 7-10 Wind Forces, Chapter 27, Part I Licensee : ELR EngineeringLic. # : KW-06010691 Description :> ASCE 7-10 Wind Load Determination ELR Engineering 1915 Dayton Ave NE Renton, WA 98056 phone: 206.200.8764 email: elreng33@gmail.com Software copyright ENERCALC, INC. 1983-2018, Build:10.18.12.30 . File = C:\Dropbox\ELRENG~1\ELR_PR~1\2019\1_RUEP~1\JKMONA~1\RENTON~1\LOT11~1\Enercalc\2694.ec6 . Project Title:Engineer:ELRProject ID: Printed: 21 JAN 2019, 7:30AM Project Descr: 0.624 16.4320.00 0.62416.43 16.43 16.430.6240.624 Pressure Coefficients GCpi Values when elevation receives positive external pressure 0.80 0.80 0.80 0.80 -0.50 -0.50 -0.220 -0.220 -0.70 -0.70 -0.70 -0.70 GCpi : Internal pressure coefficient, per sec. 26.11 and Table 26.11-1 North South East West 0.180+/-0.180 0.180 0.180+/- Specify Cp Values from Figure 27.4-1 for Windward, Leeward & Side Walls Cp Values when elevation receives positive external pressure Windward Wall East WestSouth Leeward Wall Side Walls North +/-+/- User Defined Roof locations and Net Directional Pressure Coefficients : Cp or Cn Cp or Cn Values when the indicated building elevation receives positive external pressure Description North South East West -0.250Perp: windward -0.250 -0.60Perp: leeward -0.60 Parallel: 0 to h/2 -0.90 -0.90 Parallel: h/2 to h -0.90 -0.90 Parallel: h to 2h -0.50 -0.50 Parallel: > 2h -0.30 -0.30 0.20Perp: windward 0.20 Parallel: 0 to > 2h -0.180 -0.180 Story Forces for Design Wind Load Cases Values below are calculated based on a building with dimensions B x L x h as defined on the "Basic Values" tab. Load Case Windward Wall Eccentricity for (ft)Wind Shear Components (k) In "Y" Direction In "X" Direction Mt, (ft-k)Ht. Range "Y" Shear "X" ShearBuilding level Trib. Height CASE 1 ---Level 2 -6.93 ------4.5015.13' -> 19.63'---North CASE 1 ---Level 1 -14.75 ------9.815.31' -> 15.13'---North CASE 1 ---Level 2 6.93 ------4.5015.13' -> 19.63'---South CASE 1 ---Level 1 14.75 ------9.815.31' -> 15.13'---South CASE 1 ---Level 2 ----1.50 ---4.5015.13' -> 19.63'---East CASE 1 ---Level 1 ----3.17 ---9.815.31' -> 15.13'---East CASE 1 ---Level 2 ---1.50 ---4.5015.13' -> 19.63'---West CASE 1 ---Level 1 ---3.17 ---9.815.31' -> 15.13'---West CASE 2 +/- 66.9Level 2 -5.20 ---12.874.5015.13' -> 19.63'---North CASE 2 +/- 142.4Level 1 -11.06 ---12.879.815.31' -> 15.13'---North CASE 2 +/- 66.9Level 2 5.20 ---12.874.5015.13' -> 19.63'---South CASE 2 +/- 142.4Level 1 11.06 ---12.879.815.31' -> 15.13'---South CASE 2 +/- 4.1Level 2 ----1.13 ---4.5015.13' -> 19.63'3.60East CASE 2 +/- 8.6Level 1 ----2.38 ---9.815.31' -> 15.13'3.60East CASE 2 +/- 4.1Level 2 ---1.13 ---4.5015.13' -> 19.63'3.60West CASE 2 +/- 8.6Level 1 ---2.38 ---9.815.31' -> 15.13'3.60West CASE 3 ---Level 2 -5.20 -1.13 ---4.5015.13' -> 19.63'---North & East ASCE 7-10 Wind Forces, Chapter 27, Part I Licensee : ELR EngineeringLic. # : KW-06010691 Description :> ASCE 7-10 Wind Load Determination ELR Engineering 1915 Dayton Ave NE Renton, WA 98056 phone: 206.200.8764 email: elreng33@gmail.com Software copyright ENERCALC, INC. 1983-2018, Build:10.18.12.30 . File = C:\Dropbox\ELRENG~1\ELR_PR~1\2019\1_RUEP~1\JKMONA~1\RENTON~1\LOT11~1\Enercalc\2694.ec6 . Project Title:Engineer:ELRProject ID: Printed: 21 JAN 2019, 7:30AM Project Descr: CASE 3 ---Level 1 -11.06 -2.38 ---9.815.31' -> 15.13'---North & East CASE 3 ---Level 2 -5.20 1.13 ---4.5015.13' -> 19.63'---North & West CASE 3 ---Level 1 -11.06 2.38 ---9.815.31' -> 15.13'---North & West CASE 3 ---Level 2 5.20 1.13 ---4.5015.13' -> 19.63'---South & West CASE 3 ---Level 1 11.06 2.38 ---9.815.31' -> 15.13'---South & West CASE 3 ---Level 2 5.20 -1.13 ---4.5015.13' -> 19.63'---South & East CASE 3 ---Level 1 11.06 -2.38 ---9.815.31' -> 15.13'---South & East CASE 4 +/- 53.3Level 2 -3.90 -0.85 12.874.5015.13' -> 19.63'3.60North & East CASE 4 +/- 113.3Level 1 -8.30 -1.79 12.879.815.31' -> 15.13'3.60North & East CASE 4 +/- 53.3Level 2 -3.90 0.85 12.874.5015.13' -> 19.63'3.60North & West CASE 4 +/- 113.3Level 1 -8.30 1.79 12.879.815.31' -> 15.13'3.60North & West CASE 4 +/- 53.3Level 2 3.90 0.85 12.874.5015.13' -> 19.63'3.60South & West CASE 4 +/- 113.3Level 1 8.30 1.79 12.879.815.31' -> 15.13'3.60South & West CASE 4 +/- 53.3Level 2 3.90 -0.85 12.874.5015.13' -> 19.63'3.60South & East CASE 4 +/- 113.3Level 1 8.30 -1.79 12.879.815.31' -> 15.13'3.60South & East Min per ASCE 27.4.7 ---Level 2 -6.18 ------4.5015.13' -> 19.63'---North Min per ASCE 27.4.7 ---Level 1 -13.48 ------9.815.31' -> 15.13'---North Min per ASCE 27.4.7 ---Level 2 6.18 ------4.5015.13' -> 19.63'---South Min per ASCE 27.4.7 ---Level 1 13.48 ------9.815.31' -> 15.13'---South Min per ASCE 27.4.7 ---Level 2 ----1.73 ---4.5015.13' -> 19.63'---East Min per ASCE 27.4.7 ---Level 1 ----3.77 ---9.815.31' -> 15.13'---East Min per ASCE 27.4.7 ---Level 2 ---1.73 ---4.5015.13' -> 19.63'---West Min per ASCE 27.4.7 ---Level 1 ---3.77 ---9.815.31' -> 15.13'---West Base Shear for Design Wind Load Cases North+YValues below are calculated based on a building with dimensions B x L x h as defined on the "General" tab. Load Case Windward Wall Leeward Wall Wind Base Shear Components (k)West +XIn "Y" Direction In "X" Direction Mt, (ft-k) Case 1 ---South -21.68 ---North Case 1 ---North 21.68 ---South Case 1 ---West ----4.67East Case 1 ---East ---4.67West Case 2 +/- 209.3South-16.26 ---North Case 2 +/- 209.3North16.26 ---South Case 2 +/- 12.6West----3.50East Case 2 +/- 12.6East---3.50West Case 3 ---South & West -16.26 -3.50North & East Case 3 ---South & East -16.26 3.50North & West Case 3 ---North & East 16.26 3.50South & West Case 3 ---North & West 16.26 -3.50South & East Case 4 +/- 166.6South & West -12.21 -2.63North & East Case 4 +/- 166.6South & East -12.21 2.63North & West Case 4 +/- 166.6North & East 12.21 2.63South & West Case 4 +/- 166.6North & West 12.21 -2.63South & East ASCE 7-10 Wind Forces, Chapter 27, Part I Licensee : ELR EngineeringLic. # : KW-06010691 Description :> ASCE 7-10 Wind Load Determination ELR Engineering 1915 Dayton Ave NE Renton, WA 98056 phone: 206.200.8764 email: elreng33@gmail.com Software copyright ENERCALC, INC. 1983-2018, Build:10.18.12.30 . File = C:\Dropbox\ELRENG~1\ELR_PR~1\2019\1_RUEP~1\JKMONA~1\RENTON~1\LOT11~1\Enercalc\2694.ec6 . Project Title:Engineer:ELRProject ID: Printed: 21 JAN 2019, 7:30AM Project Descr: Min per ASCE 27.4.7 ---South -19.66 ---North Min per ASCE 27.4.7 ---North 19.66 ---South Min per ASCE 27.4.7 ---West ----5.50East Min per ASCE 27.4.7 ---East ---5.50West ELR Engineering1915 Dayton Ave NERenton, WA 98056206.200.8764elreng33@gmail.comLATERAL LOADINGStory/base shear and diaphragm forces rho (ρ)Client:JK MonarchWind (E-W loads)Wind (N-S loads)SeismicWIND0.6SdsSEISMIC0.71.3Project:2694-Renton-ChelanHstoryB (< N-S >)L (< E-W >)AlevelN-S loadsE-W loadsFpy (N-S)Fpx (E-W)0.932N-S loadsE-W loadsFpxy (both)Date:1/21/2019Roof2485.831824Pw x B x L =6.931.736.931.73Cs x W = 7.457.457.45Revised:n.a.8.00Description:Wind/EQ DesignRoof-12485.831767Pw x B x L =14.753.7714.753.77Cs x W = 4.704.708.50Code:AWC-SDPWS-20159.00Roof-2000Pw x B x L =0.000.000.000.00Cs x W = 0.000.000.000.00Base shear >Pw x B x L =21.685.50Cs x W = 12.1512.15SummaryDesign base shear (ASD) >x 0.613.013.30kipsx ρ x 0.711.0611.06kipscheck:OKSHEARWALLSASDASDDemandWINDSEISMICFlexibleFlexibleFull height wall segments with A.R. <= 3.5:1FlexibleRigidFlexibleRigidRoofN-S loadsGridtrib. widthtrib. areaFwindFseismicL1L2L3L4L5L6Vwind(plf)Vwind(plf)Vseismic(plf)Vseismic(plf)< H'(if applies)8< H'(if applies)710.001980.480.7415.00320490< H'(if applies)617.422510.840.939.67870960< H'(if applies)511.331470.550.558.67630630< H'(if applies)417.424570.841.703.8322004430< H'(if applies)3< H'(if applies)222.005491.072.043.8327805330< H'(if applies)17.662220.370.8310.17360810min Li =2.286OK85.831824OK4.166.78E-W loadsGridtrib. widthtrib. areaFwindFseismicL1L2L3L4L5L6Vwind(plf)Vwind(plf)Vseismic(plf)Vseismic(plf)< H'(if applies)H< H'(if applies)G< H'(if applies)F< H'(if applies)E< H'(if applies)D< H'(if applies)C< H'(if applies)B12.009120.523.397.9211.755.255.005.00150970< H'(if applies)A12.009120.523.3910.0012.8319.50120800min Li =2.286OK241824OK1.04 6.78Roof-1 N-S loadsGrid trib. width trib. area Fwind Fseismic L1 L2 L3 L4 L5 L6 Vwind(plf) Vwind(plf) Vseismic(plf) Vseismic(plf)< H'(if applies)8< H'(if applies)710.002401.521.3221.67700610< H'(if applies)617.422912.641.6411.506.421470910< H'(if applies)511.331121.720.828.671980940< H'(if applies)417.424072.642.683.8368907010< H'(if applies)3< H'(if applies)222.005493.333.374.5074107490< H'(if applies)17.661681.161.235.2522102350min Li =2.571OK85.831767OK13.0111.06 ELR Engineering1915 Dayton Ave NERenton, WA 98056206.200.8764elreng33@gmail.comEDAssumed orientation"E-W" gridsC>BY +A0,01234X + >"N-S" gridsTotal seismic capacity of shear line with individual segment capacities within the shearline with A.R.i > 2:1reduced by 2 Li/H per 2015 SDPWS 4.3.3.4.1 for shear lines with more than one shear wall and 1.25-H/8Li per 2015 SDPWS 4.3.4.2 for shear lines with one wall onlyGovernsW6W4W3W22W32W2FlexibleRigidW or EQ3.6275.3016.8368.92813.67120.440W6< EQ2.3383.4174.4075.7568.81313.177W6< EQ2.0963.0643.9515.1607.90211.815W6< EQ0.9161.3391.7262.2543.4525.161W3< EQ0.9161.3391.7262.2543.4525.161W2< EQ2.4593.5944.6346.0539.26913.859W6< EQW6W4W3W22W32W2FlexibleRigidW or EQ8.44412.34115.91320.78431.82647.585W6< EQ10.23514.95919.29025.19538.58057.683W6< EQW6 W4 W3 W2 2W3 2W2Flexible Rigid W or EQ5.2407.6589.87512.89819.75029.530W6< EQ4.3336.3338.16610.66616.33224.419W6< W2.0963.0643.9515.1607.90211.815W6< W0.8861.2941.6692.1803.3384.9912W3< EQ1.0881.5902.0512.6784.1016.1322W3< EQ1.2691.8552.3923.1254.7857.154W6< EQ ELR Engineering1915 Dayton Ave NERenton, WA 98056206.200.8764elreng33@gmail.comControlling 0.6D + 0.6W 0.6D + 0.7ρEHOLDOWNSFlexible Rigid Flexible Rigid MAX v hd shear Available resisting D WIND SEISMIC0.6WIND SEISMICRoofN-S loads Grid L1 L2 L3 L4 L5 L6 Vwind(plf) Vwind(plf) Vseismic(plf) Vseismic(plf) (plf) W/E? uni. (plf) conc. (lbs) o/t T (lbs) o/t T (lbs)resist C (lbs) net o/t (lbs) net o/t (lbs)8.00< Hw88.00< Hw715.0032 0 49 0 49 E140258 392 630 -372 -2388.00< Hw69.6787 0 96 0 96 E140698 772 406 292 3668.00< Hw58.6763 0 63 0 63 W148506 504 384 123 1218.00< Hw43.83220 0 443 0 443 E2451763 3548 282 1481 3266 holdown8.00< Hw38.00< Hw23.83278 0 533 0 533 E2152226 4262 247 1979 4015 holdown8.00< Hw110.1736081081E148292649450-158199E-W loads Grid L1 L2 L3 L4 L5 L68.00< HwH8.00< HwG8.00< HwF8.00< HwE8.00< HwD8.00< HwC8.00< HwB7.92 11.75 5.25 5.00 5.0015 0 97 0 97 E254119 777 894 -775 -1188.00< HwA10.0012.8319.5012080080E254986411484-1386-844Roof-1N-S loads Grid L1 L2 L3 L4 L5 L69.00< Hw89.00< Hw721.6770 0 61 0 70 W278629 547 1807 -1178 -12609.00< Hw611.50 6.42147 0 91 0 147 W2781326 822 959 367 -1379.00< Hw58.67198 0 94 0 198 W2861782 849 743 1040 106 holdown9.00< Hw43.83689 0 701 0 701 E3836204 6306 440 5764 5866 holdown9.00< Hw39.00< Hw24.50741 0 749 0 749 E3536668 6739 477 6192 6262 holdown9.00< Hw15.2522102350235E2861990211245015401662holdown Project Information Code:Date: Designer: Client: Project: Wall Line: > 0.6W > 0.7ρE - V (lb) =123 801 - Apply Ωo per 12.3.3.3?Y - Overstrength factor (Ωo) =2.5 - ASCE 7-10 12.4.3.3 ASD stress increase w/Ωo =1.2 - Sds =0.932 - ρ =1.3 V 801 lbf Seismic controls Opening 1 Adj. Factor hwall 8.00 ft ha1 1.17 ft P1=ho1/L1= 0.71 N/A L1 2.83 ft ho1 2.00 ft P2=ho1/L2=0.71 N/A L2 2.83 ft hb1 4.83 ft Lwall 10.00 ft Lo1 4.34 ft 1. Hold-down forces: H = Vhwall/Lwall 641 lbf 6. Unit shear beside opening 141 plf 2. Unit shear above + below opening 141 plf 107 plf 801 lbf NO GOOD 3. Total boundary force above + below openings 7. Resistance to corner forces First opening: O1 = va1 x (Lo1) =463 lbf R1 = V1*L1 =400 lbf R2 = V2*L2 =400 lbf 4. Corner forces F1 = O1(L1)/(L1+L2) =232 lbf 8. Difference corner force + resistance F2 = O1(L2)/(L1+L2) =232 lbf R1-F1 =169 lbf R2-F2 =169 lbf 5. Tributary length of openings T1 = (L1*Lo1)/(L1+L2) =2.17 ft 9. Unit shear in corner zones T2 = (L2*Lo1)/(L1+L2) =2.17 ft vc1 = (R1-F1)/L1 =60 plf vc2 = (R2-F2)/L2 =60 plf Holdowns (overturning) Twind =98 lbf Tseismic =1027 lbf Holdowns (Dead resisting) Uniform =254 plf Conc. =0 lbf Twind (net) =-663 lbf < (0.6D+0.6W) Tseismic (net) =194 lbf < (0.6-0.14Sds)D+0.7ΩoE/ρ Check Summary of Shear Values for One Opening Line 1: vc1(ha1+hb1)+V1(ho1)=H?358 283 641 lbf Line 2: va1(ha1+hb1)-vc1(ha1+hb1)-V1(ho1)=0?641 358 283 0 Line 3: vc2(ha1+hb1)+V2(ho1)=H?358 283 641 lbf Req. Sheathing Capacity 141 plf < Seismic controls W6 Req. Strap Force 232 lbf < Seismic controls CS22 applied to one side of wall above and below window x 120 inches long Req. HD Force (net)194 lbf < Seismic controls NONE < Input holdown here V2 = (V/L)(T2+L2)/L2 = AWC-SDPWS-2015 1/21/2019 ELR JK Monarch 2694-Renton-Chelan Upper story - Grid A - 10'-0" Input Variables Wall Pier Aspect Ratio V1 = (V/L)(L1+T1)/L1 = First opening: va1 = vb1 = H/(ha1+hb1) =Check V1*L1+V2*L2=V? Design Summary Project Information Code:Date: Designer: Client: Project: Wall Line: > 0.6W > 0.7ρE - V (lb) =157 1027 - Apply Ωo per 12.3.3.3?N - Overstrength factor (Ωo) =N.A. - ASCE 7-10 12.4.3.3 ASD stress increase w/Ωo =N.A. - Sds =0.932 - ρ =1.3 V 1027 lbf Seismic controls Opening 1 Adj. Factor hwall 8.00 ft ha1 1.17 ft P1=ho1/L1= 1.72 N/A L1 2.33 ft ho1 4.00 ft P2=ho1/L2=1.64 N/A L2 2.44 ft hb1 2.83 ft Lwall 12.83 ft Lo1 8.06 ft 1. Hold-down forces: H = Vhwall/Lwall 641 lbf 6. Unit shear beside opening 215 plf 2. Unit shear above + below opening 215 plf 160 plf 1027 lbf OK 3. Total boundary force above + below openings 7. Resistance to corner forces First opening: O1 = va1 x (Lo1) =1291 lbf R1 = V1*L1 =502 lbf R2 = V2*L2 =526 lbf 4. Corner forces F1 = O1(L1)/(L1+L2) =631 lbf 8. Difference corner force + resistance F2 = O1(L2)/(L1+L2) =660 lbf R1-F1 =-129 lbf R2-F2 =-135 lbf 5. Tributary length of openings T1 = (L1*Lo1)/(L1+L2) =3.94 ft 9. Unit shear in corner zones T2 = (L2*Lo1)/(L1+L2) =4.12 ft vc1 = (R1-F1)/L1 =-55 plf vc2 = (R2-F2)/L2 =-55 plf Holdowns (overturning) Twind =98 lbf Tseismic =641 lbf Holdowns (Dead resisting) Uniform =254 plf Conc. =0 lbf Twind (net) =-878 lbf < (0.6D+0.6W) Tseismic (net) =-124 lbf < (0.6-0.14Sds)D+0.7ρE Check Summary of Shear Values for One Opening Line 1: vc1(ha1+hb1)+V1(ho1)=H?-221 862 641 lbf Line 2: va1(ha1+hb1)-vc1(ha1+hb1)-V1(ho1)=0?641 -221 862 0 Line 3: vc2(ha1+hb1)+V2(ho1)=H?-221 862 641 lbf Req. Sheathing Capacity 215 plf < Seismic controls W6 Req. Strap Force 660 lbf < Seismic controls CS22 applied to one side of wall above and below window x 153.96 inches long Req. HD Force (net)-124 lbf < Seismic controls NONE < Input holdown here Design Summary Upper story - Grid A - 12'-10" Input Variables Wall Pier Aspect Ratio V1 = (V/L)(L1+T1)/L1 = V2 = (V/L)(T2+L2)/L2 = First opening: va1 = vb1 = H/(ha1+hb1) =Check V1*L1+V2*L2=V? AWC-SDPWS-2015 1/21/2019 ELR JK Monarch 2694-Renton-Chelan Project Information Code:Date: Designer: Client: Project: Wall Line: > 0.6W > 0.7ρE - V (lb) =239 1562 - Apply Ωo per 12.3.3.3?Y - Overstrength factor (Ωo) =2.5 - ASCE 7-10 12.4.3.3 ASD stress increase w/Ωo =1.2 - Sds =0.932 - ρ =1.3 V 1562 lbf Seismic controls Opening 1 Adj. Factor hwall 8.00 ft ha1 1.17 ft P1=ho1/L1= 0.89 N/A L1 4.50 ft ho1 4.00 ft P2=ho1/L2=0.80 N/A L2 5.00 ft hb1 2.83 ft Lwall 19.50 ft Lo1 10.00 ft 1. Hold-down forces: H = Vhwall/Lwall 641 lbf 6. Unit shear beside opening 164 plf 2. Unit shear above + below opening 164 plf 160 plf 1562 lbf OK 3. Total boundary force above + below openings 7. Resistance to corner forces First opening: O1 = va1 x (Lo1) =1602 lbf R1 = V1*L1 =740 lbf R2 = V2*L2 =822 lbf 4. Corner forces F1 = O1(L1)/(L1+L2) =759 lbf 8. Difference corner force + resistance F2 = O1(L2)/(L1+L2) =843 lbf R1-F1 =-19 lbf R2-F2 =-21 lbf 5. Tributary length of openings T1 = (L1*Lo1)/(L1+L2) =4.74 ft 9. Unit shear in corner zones T2 = (L2*Lo1)/(L1+L2) =5.26 ft vc1 = (R1-F1)/L1 =-4 plf vc2 = (R2-F2)/L2 =-4 plf Holdowns (overturning) Twind =98 lbf Tseismic =1027 lbf Holdowns (Dead resisting) Uniform =254 plf Conc. =0 lbf Twind (net) =-1386 lbf < (0.6D+0.6W) Tseismic (net) =-372 lbf < (0.6-0.14Sds)D+0.7ΩoE/ρ Check Summary of Shear Values for One Opening Line 1: vc1(ha1+hb1)+V1(ho1)=H?-17 657 641 lbf Line 2: va1(ha1+hb1)-vc1(ha1+hb1)-V1(ho1)=0?641 -17 657 0 Line 3: vc2(ha1+hb1)+V2(ho1)=H?-17 657 641 lbf Req. Sheathing Capacity 164 plf < Seismic controls W6 Req. Strap Force 843 lbf < Seismic controls CS22 applied to one side of wall above and below window x 234 inches long Req. HD Force (net)-372 lbf < Seismic controls NONE < Input holdown here Design Summary Upper story - Grid A - 19'-6" Input Variables Wall Pier Aspect Ratio V1 = (V/L)(L1+T1)/L1 = V2 = (V/L)(T2+L2)/L2 = First opening: va1 = vb1 = H/(ha1+hb1) =Check V1*L1+V2*L2=V? AWC-SDPWS-2015 1/21/2019 ELR JK Monarch 2694-Renton-Chelan Project Information Code:Date: Designer: Client: Project: Wall Line: > 0.6W > 0.7ρE - V (lb) =858 2876 - Apply Ωo per 12.3.3.3?N - Overstrength factor (Ωo) =N.A. - ASCE 7-10 12.4.3.3 ASD stress increase w/Ωo =N.A. - Sds =0.932 - ρ =1.3 V 2876 lbf Seismic controls Opening 1 Adj. Factor hwall 9.00 ft ha1 1.00 ft P1=ho1/L1= 1.40 N/A L1 3.58 ft ho1 5.00 ft P2=ho1/L2=1.40 N/A L2 3.58 ft hb1 3.00 ft Lwall 15.17 ft Lo1 8.01 ft 1. Hold-down forces: H = Vhwall/Lwall 1706 lbf 6. Unit shear beside opening 402 plf 2. Unit shear above + below opening 402 plf 427 plf 2876 lbf OK 3. Total boundary force above + below openings 7. Resistance to corner forces First opening: O1 = va1 x (Lo1) =3417 lbf R1 = V1*L1 =1438 lbf R2 = V2*L2 =1438 lbf 4. Corner forces F1 = O1(L1)/(L1+L2) =1708 lbf 8. Difference corner force + resistance F2 = O1(L2)/(L1+L2) =1708 lbf R1-F1 =-270 lbf R2-F2 =-270 lbf 5. Tributary length of openings T1 = (L1*Lo1)/(L1+L2) =4.01 ft 9. Unit shear in corner zones T2 = (L2*Lo1)/(L1+L2) =4.01 ft vc1 = (R1-F1)/L1 =-76 plf vc2 = (R2-F2)/L2 =-76 plf Holdowns (overturning) Twind =509 lbf Tseismic =1706 lbf Holdowns (Dead resisting) Uniform =410 plf Conc. =0 lbf Twind (net) =-1355 lbf < (0.6D+0.6W) Tseismic (net) =247 lbf < (0.6-0.14Sds)D+0.7ρE Check Summary of Shear Values for One Opening Line 1: vc1(ha1+hb1)+V1(ho1)=H?-302 2008 1706 lbf Line 2: va1(ha1+hb1)-vc1(ha1+hb1)-V1(ho1)=0?1706 -302 2008 0 Line 3: vc2(ha1+hb1)+V2(ho1)=H?-302 2008 1706 lbf Req. Sheathing Capacity 402 plf < Seismic controls W3 Req. Strap Force 1708 lbf < Seismic controls CS14 applied to one side of wall above and below window x 182.04 inches long Req. HD Force (net)247 lbf < Seismic controls NONE < Input holdown here Design Summary Lower story - Grid A - 15'-2" Input Variables Wall Pier Aspect Ratio V1 = (V/L)(L1+T1)/L1 = V2 = (V/L)(T2+L2)/L2 = First opening: va1 = vb1 = H/(ha1+hb1) =Check V1*L1+V2*L2=V? AWC-SDPWS-2015 1/21/2019 ELR JK Monarch 2694-Renton-Chelan