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Home My WebLink AboutJOINT EVALUATION REPORTDIVISION: 06 00.Q%-M0-G AaEHI ilsSJ#ND COMPOSITES 00—THERMAL AND SECTION: 07 46 23—WOOD SID SUBSTRATE Look for the trusted marks of Conformity! "2014 Recipient of Prestigious Western States Seismic Policy Council (IWSSPC) Award in Excellence" SCANNED BY St, Lucie County STRAND sil � 0 A Subsidiary of coodEDO cle ICC-ES Evaluation Reports are not to be construed as representing aesthetics or any other attributes not specifically addressed, nor are they to be construed as an endorsement of the subject of the report or a recommendation for its use. There is no warranty by [CC Evaluation Service, LLG express or implied as to arty finding or other matter in this report, or as to arty product covered by the report. Copyrighto £0171CC Evaluation Service, LLC and APA—The Engineered Wood Association. All rights reserved. Joint Evaluation Report ESR-1301 Reissued February 2016 Revised July 18, 2017 This report is subject to renewal February 2018. www.ir,c-es.org 1 (800) 423-6587 ) (662) 699-0543 A Subsidiary of the international Code Council® DIVISION: 06 00 00—WOOD, PLASTICS AND COMPOSITES Section: 0616 00—Sheathing DIVISION: 07 00 00—THERMAL AND MOISTURE PROTECTION Section: 0746 23—Wood Siding REPORT HOLDER: LOUISIANA-PACIFIC CORPORATION 414 UNION STREET, SUITE 2000 NASHVILLE, TENNESSEE 37219 (888) 82M325 www.LPcorp.com marketino.center0l ocoro.com EVALUATION SUBJECT: LP SMARTSIDO STRAND SUBSTRATE LAP SIDING AND LP SMARTSIDE® STRAND SUBSTRATE PANEL SIDING 1.0 EVALUATION SCOPE Compliance with the following codes: s 2015 2012, 20091 2008, and 2003 International Building Code° (IBC) ■ 2015, 2012, 2009. 2006, and 2003 International Residential Code® (IRC) Properties evaluated: ■ Exterior siding ■ Structural 2.0 USES LP SmartSide® Strand Substrate Lap Siding and LP SmartSide® Strand Substrate Panel Siding are used as exterior wall covering materials on buildings where combustible materials are permitted. LP SmartSide Strand Substrate Panel Siding may be used as bracing method 3 for conventional wood -framed walls as specified in the 2006/200912012 IBC Section 2308.9.3 and IRC Section R602.10, or the WSP method as specified in the 2015 IBC Section 2308.E and IRC Section . R602.10. LP SmartSide® Strand Substrate Panel Siding may be used as sheathing for wood structural panel shear walls having allowable shear loads specified for PS2-compliant wood -based sheathing in accordance with 2003/2006 IBC Section 2306.4.1, and 2009/201212015 IBC Section 2306.3. 3.0 DESCRIPTION 3.1 General: LP SmartSide Strand, Substrate Lap Siding and LP SmartSide® Strand Substrate Panel Siding are engineered - wood exterior wall covering materials that are suitable for long-term exposure to weather or conditions of similar severity, when fastened to vertical supports or approved nailable wood substrates in accordance with their span ratings and this evaluation report The lap siding and panel siding products consist of a mat -formed wood substrate preservatively treated with zinc borate in accordance with AWPA Standard T1, and a resin -impregnated overlay material bonded to the face of the lap and panel siding products intended to be exposed to the weather. Additionally, all panel and lap siding edges are factory - sealed with a sealer in accordance with the approved quality -control manual. 3.2 LP SmartSide® Strand Substrate Lap Siding: LP SmartSide® Strand Substrate Lap Siding is available in widths of 6, 8 and 12 Inches (152, 203 and 305 mm); categories 31e and 7/16; and lengths of 12 to 16 feet (3658 to 4877 mm). The 8-Inch-wide, (203 mm), 7/1s category lap siding is also available with an optional self -alignment edge. 3.3 LP SmartSide® Strand Substrate Panel Siding: LP SmartSide® Strand Substrate Panel Siding is 4 feet (1219 mm) wide and 4, 6, 7, 8, 9 or 10 feet (1219, 1829� 2134, 2438, 2743 or 3048 mm) in length. LP SmartSide Strand Substrate Panel Siding is available in %, 7/1e, and 18/32 - categories. The 3/8. category panel has grooves spaced at 6 inches (203 mm), with a minimum thickness at the grooves of 0.164 inch (4 mm) and a minimum thickness at the shiplap of 0.136 inch (4 mm). - The 'As category panel has grooves spaces! at 4 or 8 Inches (102 or 203 mm), with a minimum thickness at the grooves of 0.235 inch (6 mm) and a minimum thickness at the shiplap of 0.150 inch (4 mm). The 19132 category panel has grooves spaced at 4 or 8 inches (102 or 203 mm), with a minimum thickness at the grooves of 0.311 inch (8 mm) and a minimum shiplap thickness of 0.194 inch (5 mm). LP SmartSide® Strand Substrate Panel Siding is classified as Exterior Rated Siding or Exterior Rated Siding --Sheathing. The classification is noted in the label on the panel. Fxterior Rated Siding is intended to be installed 'in applications in accordance with the 2006/2009/2012 IBC Section 2308.9.3'and IRC Section OR iO WIW Copyright ® 2017 ICC Evaluation Service, LLC. All rights reserved. Page 1 of ESR-1301 I Most Widely Accepted and Trusted Page 2of7 R602.10 or 2015 IBC Section 2308.6 and 2015 IRC Section R602.10 as an exterior siding suitable for long- term exposure to weather or conditions of similar severity. In addition to the intended application for Exterior Rated Siding, Exterior Rated Siding —Sheathing is intended to be installed in applications in accordance with 2003/20061BC Section 2306.4.1, and 2009/2012/20151BC Section 2306.3. 4.0 INSTALLATION 4.1 General: LP SmartSide® Strand Substrate Lap Siding and LP SmartSide® Strand Substrate Panel Siding must be installed in accordance with the manufacturer's published installation instructions (titled 'Application Instructions LP SmartSide® Strand Substrate Lap LP SmartSidee Strand Substrate Panel Siding) and this report. In the event of conflicts, this report governs. A copy of the manufacturer's installation instructions must be on the jobsite at all times during Installation. LP SmartSide° Strand Substrate Lap Siding and LP SmartSide® Strand Substrate Panel Siding must be installed with an approved water -resistive barrier as required by the applicable code. Openings in, penetratiors through, and terminations of the LP SmartSide® Strand Substrate Lap Siding and LP SmartSide® Strand Substrate Panel Siding are outside the scope of this report and must be specifically approved by the code official in accordance with the applicable code. Unless otherwise noted in this report, fasteners and fastener spacing must be as rioted in the applicable code. 4.2 LP SmartSlde® Strand Substrate Lap Siding: LP SmartSidee Strand Substrate Lap Siding must be attached to -framing members spaced a maximum of 16 inches (406 mm) on center. for'/s category siding and a maximum of24 inches (610 mm) on center for'/,ecategory siding. Self -aligning LP SmartSide® Strand Substrate Lap Siding is installed with nails placed at the top of the LP SmartSide® Strand Substrate Lap siding,'12 inch (13 mm) down from the upper edge. Each successive course of lap siding must rest on the back rabbet and must self -align at an Overlap of'a/,s inch (21 mm). g Nails must be of sufficient length to penetrate a minimum of 07 inches (38 mm) through the sheathing and into framing at each stud location. 4.3. LP SmartSide® Strand Substrate Panel Siding: LP SmartSide® Strand Substrate Panel Siding must be Installed with its long dimension oriented vertically. When LP SmartSide® Strand Substrate Panel Siding is applied directly to the framing, the maximum spacing of the framing must be consistent with the span rating of the LP SmartSide® Strand Substrate Panel Siding, which Is identified on the panel's label. Allowable loads for shearwalls sheathed with LP SmartSide® Strand Substrate Panel Siding —Sheathing are noted in Table 1. Four-foot-by-8-foot (1219 mm by 2438 mm) LP SmartSide® Strand Substrate Panel Siding —Sheathing installed vertically, directly to framing, with a single row of nails penetrating both laps, spaced 6 inches on center at panel edges and 12 inches (305 mm) on center at Intermediate supports may be used to satisfy the wall bracing requirements for conventional light frame construction specified in the code for prescriptive construction. Install per code requirements for bracing method 3 with wood structural panels or WSP bracing method All LP SmartSide® Strand Substrate Panel Siding joints must occur at framing members and must be protected with a continuous wood batt, approved caulking, flashing, dr vertical or horizontal shiplap, or otherwise made waterproof. 4.4 Component and Cladding Wind Pressure Capacity: Maximum allowable component and cladding wind loads (wall, zone 5) for LP SmartSide® Strand Substrate Lap Siding and LP SmartSlde® Strand Substrate Panel Siding based on a minimum fastener schedule, are provided in Tables 2 through,5. Tables 2 and 3, for lap and panel siding, respectively, are based on full fastener penetration into the wall studs, i.e., fastener penetration = fastener length - siding thickness. Tables 4 and 5, for lap and panel siding, respectively, are based on a minimum fastener penetration into the wall studs of 1 %. inches. 5.0 CONDITIONS OF USE The LP SmartSide® Strand Substrate Lap Siding and LP SmartSide® Strand Substrate Panel Siding described in this report comply with, or are suitable alternatives to what is specified in, those codes listed in Section 1.0 of this report, subject to the following conditions: 5.1 LP SmartSide® Strand Substrate Lap Siding roust not be used to satisfy the bracing requirements specified. in the code. 5.2 LP SmartSide° Strand Substrate Panel Siding — Sheathing, when installed as set forth in this report, may, be used as method 3 bracing*specified in Section 230B.9 of the IBC and Section R60Z 10 of the IRC, or. the WSP method as specified In 2015 IBC Section 2308.6 and IRC Section R602.10. 5.3 In areas where seismic analysis is required by the applicable code, the applicable code requirements for wood structural panel shear walls must be consulted for additional detailing requirements, restrictions concerning certain usages, required modifications to the allowable shear loads tabulated in this report, and additional inspection requirements. 5.4 LP SmartSide Strand Substrate Lap Siding and LP SmartSide® Strand Substrate Panel Siding must.not be installed In contact with concrete or masonry. 5.5 LP SmartSldee Strand Substrate Lap Siding and LP SmartSide® Strand Substrate Panel Siding must be installed with a minimum 5 Inches (152 mm) of clearancefrom finished grade. 5.6 When field cuts are made to LP SmartSide® Strand Substrate Lap Siding and LP SmartSlde® Strand Substrate Panel Siding, all exposed surfaces must be finished according to the paint or caulktsealant manufacturers' specifications. 5.7 LP SmartSide® Strand Substrate Lap Siding and LP SmartSide® Strand Substrate Panel Siding are manufactured by Louisiana-Pacific Corporation in Hayward, Wisconsin (Mill No. 357); ' Newberry, Michigan (Null No. 416); Tomahawk, Wisconsin (Mill No. 435); Two Harbors, Minnesota (Mill No. 399); and Swan Valley, Minitonas, Manitoba, Canada (Mill No. 457)• under a quality -control program with inspections by ICC-ES. ESR-1301 I Most IMdely Accepted and Trusted Page 3 of 7 6.0 EVIDENCE SUBMITTED Data in accordance with the ICC-ES Acceptance Criteria for Treated -engineered -wood Siding (AC321), dated October 2005 (editorially revised December 2015). 7.0 IDENTIFICATION LP SmartSide® Strand Substrate Lap Siding and LP SmartSde® Strand Substrate Panel Siding must be labeled with the product designation and the name of Louisiana- Pacific Corp. The stamp shall provide the. following information: 1. Mill number. 2. The evaluation report number (ESR-1301). 3. Grade/exposure. 4. Span rating. 5. Performance category (based on customary inch fractions). TABLE 1—ALLOWABLE RACKING SHEAR (Plf) FOR LP SMARTSIDEe STRAND SUBSTRATE PANEL SIDING -~SHEATHING SHEAR 4YALLS WITH FRAMING OF DOUGLAS FIR -LARCH OR SOUTHERN PINE FOR WIND OR SEISMIC LOADING''" PERFORMANCE CATEGORY MINIMUM NAIL PENETRATION IN FRAMING (inches) PANELS APPLIED DIRECTLY TO FRAMING Nail Size (Common or Galvanized Box) Nail Spacing at Panel Edges (inches) 6 4 3 2' 51185,fi 111 4 ad IN 270 350 450 �l6s€ 200 300 390 510 �/ 5.6 112 ad 220 320 410 530 7/1s5 240 350 450 585 19/R5 isle 10d 340 510 6554 870 For Sl: 1 Inch = 25.4 mm, 1 PH= 14.6 Wm. 'For framing of other species: (a) Find specific gravity for species of lumber in AF & PA National Design Specification; (b) find shear value from table for nails size; c) multiply value by 0.82 for species with specific gravity greater than or equal to 0.42 but less than 0.49, or 0.65 for species with specific tgravity less than 0.42 All panel edges must be backed with 2-inch nominal or wider framing. Panels must be installed with the long dimension oriented in the vertical direction. Space nails 6 inches ma along Intermediate framing members for 3/a category and '/1s category panels installed on studs spaced 24 Inches me. For other conditions and panel thfckneases, space nails 12 inches oo. on intermediate supports. 'The values are for short-term loads due to wind or earthquake (133% increase) and must he reduced by 25 percent for normal duration of loading 'Framing at panel edges must be 3 inches nominal or wider and nails must be staggered where nails are spaced 2 Inches o.c., and where 10d nails having penetration into framing of more than ls/s inches are spaced 3 Inches, or less, o.a Exception: Unless othewlse required, 2-Inch nominal framing may be used where full nailing surface is available and nails are staggered. °Except as noted in Footnote 7, 'panel, thickness at point of nailing at panel ed?es determines applicable shear values, except that sle category panels nailed at shipiap edges use shear values for 5116 category panels, and'As and 'lay category panel sidings nailed at shiplap edges use shear values for 'la category panels. sShiplap edges must be double-nalled; one nail must be placed in the underlap and a second nail must be placed in the overlap at the nail spacing specified for the applicable shear, value. 7Fasteners must not be installed in petrel siding greovas in the field of the panel siding or when the panel siding grooves occur at cut edges of the panel siding. TABLE 2a—LAP SIDING - MAXIMUM NOMINAL (ALLOWABLE) COMPONENT AND CLADDING DESIGN WIND SPEED, V„a1'' PERFORMANCE CATEGORY MAXIMUM WALL STUD SPACING (inches) SIDING WIDTH (Inches) MAXIMUM ALLOWABLE WIND PRESSURE (Psfl MAXIMUM NOMINAL (ALLOWABLE) WIND SPEED, V„e°(mph) Wind Exposure Category a C D 3le 16 6 80 17C 150 140 8 79 170 150 140 12 50 140 120 110 rA • 16 6 80 170 150 140 a 76 170 160 130 12 49 140 1 120 110 6 24 6 71 170 145 130 8 51 155 120 110 12 32 110 90 90 For SI: 1 inch = 25.4 mm, 1 psf = 47.88 Pa, 1 mph = 1.6 kph. 'One fastener per stud located s/4 inch from the top edge of the siding. Each successive course of lap siding must overlap a minimum of 1 inch. Fastener must have a minimum head diameter of 0.297 inch, a minimum shaft diameter of 0.113 inch and a minimum length of 2.5 Inches (ad box nail). Tabulated values assume full penetration of the fastener Into the wall studs, i.e., fastener penetration = fastener length -siding thickness. 'Wail studs must have a minimum specific gravity of 0.42. 4Thme-second-gust,, based on wind pressures acting toward and away from building surfaces; at 30-feet height in Zone 5 with smallest effective area per Chapter 5 of ASCE 7-05, Section R301.2 of the 200912012 IRC, and Section 1609.1.1 of the 2009 IBC. ESR-1301 I Most Widely Accepted and Trusted Page 4 of 7 TABLE 2b—LAP SIDING -MAXIMUM ULTIMATE COMPONENT AND CLADDING DESIGN WIND SPEED, V,a''' PERFORMANCE CATEGORY MAXIMUM WALL STUDSPACING' (inches) SIDING WIDTH (inches) MAXIMUM ULTIMATEWIND PRESSURE (Pq MAXIMUM ULTIMATE DESIGN WIND SPEED, V„p (mph) Wind Exposure Category 6 C D 319 16 6 133 200 180 180 8 131 200 180 150 12 83 180 150 140 r �16 16 6 133 200 180 180 8 127 200 180 160 12 81 180 160 140 24 6 119 200 180 160 a 85 180 150 140 12 54 140 120 115 For SI: 1 Inch'= 25.4 mm. 1 pat = 47.88 Pa, 1 mph = 1.6 kph. - 'One fastener per stud located 3!6 inch from the top edge of the siding. Each successive course of lap siding must overlap a minimum' of 1 Inch. Fastener must have a minimum head diameter of 0.297 Inch, a minimum shaft diameter of 0.113 Inch and a minimum length of 2.5 inches (8d box nail). 'Tabulated values assume full penetration of the fastener into the wall studs, I.e., fastener penetration =fastener length —siding thickness. 'Wall studs most have a minimum specific gravity of 0.42 Three -second -gust; based on wind pressures acting.toward and away from building surfaces, at 30-feet height in Zone 5 with smallest effective area per Chapter 26 of ASCE 7-10 and Section 1609.1:1 of the 201212015 IBC. TABLE 3a—PANEL SIDING - MAXIMUM NOMINAL (ALLOWABLE) COMPONENT AND CLADDING DESIGN WINO SPEED, V. d PERFORMANCE CATEGORY MAXIMUM WALL STUD SPACING; (Inches) FASTENER SPACING' (inches o.c.) MAXIMUM ALLOWABLE WIND PRESSURE(pst) MAXIMUM NOMINAL (ALLOWABLE) WIND SPEED, V,'(mph) Edges Field Wind Exposure Category B C D 16 6 12 46 130 110 105 6 80 170 150 140 24 6 12 1 31 110 90 85. 6 61 150 130 120 . 7116 t6 6 12 45 130 110 105 6 80 170 150 140 24 6 12 30 110 90 85 6 59 150 130 120 19/n 16 6 12 41 130 110 100 6 80 170 150 140 24 6 12 27 105 90 - 6 55 150 125 110 For au i inch = 25.4 mm, I pm = 41.66 Pa, 1 mph = 1.6 kph. 'Tabulated values assume full penetration of the fastener Into the wall studs, i.e., fastener penetration = fastener length —siding thickness. 'Wall studs must have a minimum specific gravity of 0.42. 'Fastener must have a minimum head diameter of 0.297 inch, a minimum shaft diameter of 0.113 inch and a minimum length of 2.5 Inches SSd box nam. Three -second -gust; based on wind pressures acting toward and awayfrom building surfaces, at 30-feet in Zone 5 with smallest effective area per Chapter 6 of ASCE 7-05, Section R3012 of the 2009/2012 IRC, and Section 1609.1.1 of the 2009 IBC. ESR-1301 I Most Widely Accepted and Trusted Page 5of7 TABLE 3b—PANEL SIDING - MAXIMUM ULTIMATE COMPONENT AND CLADDING DESIGN WIND SPEED, V„ a' PERFORMANCE CATEGORY MAXIMUM WALL STUD SPACING' FASTENER SPACING' (inches o.c.) MAXIMUM ULTIMATE WIND PRESSURE MAXIMUM ULTIMATE DESIGN WIND SPEED, V„rt (mph) (inches) (Pat) Edges Field Wind Exposure Category B C D 16 6 12 77 160 150 130 6 133 200 180 180 31e 24 6 12 51 140 120 110 6 102 200 160 150 16 6 12 74 160 140 130 6 133 200 180 180 �/16 ' 24 8 12 50 140 120 110 6 99 200 160 150 14/af 16 6 12 69 160 140 130 6 133 200 180 180 24 6 12 46 130 115 - 6 92 1 180 160 150 For SI: 1 Inch = 25A mm, 1 psf = 47.88 Pa, 1 mph = 1.6 kph. 'Tabulated values assume full penetration of the fastenerinto the wall studs, i.e.,fastener penetration = fastener length -siding thickness. 'Wall studs must have a minimum specific gravity of 0.42. 'Fastener must have a minimum head diameter of 0.297 Inch, a minimum shaft diameter of 0.113 inch and a minimum length of 2.5 Inches (8d box nal0. ' Three -second -gust;. based on wind pressures acting toward and away from building surfaces, at 30-feet height in Zone 5 with smallest effective area per Chapter 26 of ASCE 7-10 and Section 1609.1.1 of the 2012/2015 IBC. TABLE 42—LAP SIDING -MAXIMUM NOMINAL (ALLOWABLE) COMPONENT AND CLADDING DESIGN WIND SPEED, V,,''' PERFORMANCE CATEGORY MAXIMUM WALL STUD SPACING' (inches) SIDING WIDTH (inches) MAXIMUM ALLOWABLE NAND PRESSURE MAXIMUM NOMINAL (ALLOWABLE) WIND SPEED, %"4 (mph) Wind d Exposure Category a. C D 31e 16 6 78 170 160 130 8 56 150 125 110 12 35 120 100 90 'l16 16 6 78 170 160 130 8 56 150 125 ,110 12 35 120 100 90 24 6 52 145 120 110 8 37 120 100 90 12 24 g0 For SI: 1 Inch= 25.4 mm, 1 pet = 47.88 Pa, 1 mph = 1.6 kph. 'One fastener per stud located'/. Inch from the top edge of the siding.. Each successive course of lap siding must ovedap a minimum of 1 inch. Fastener must have a minimum head diameter of 0.297'inch, a minimum shaftdiameter of 0.113 inch and a minimum length of 2.5 Inches (8d box nail). 'Tabulated values assume a fastener penetration of 1'/2 inches Into the wall studs. 'Wall studs must have a minimum specific gravity of 0.42. °Three -second -gust; based on wind pressures acting toward and away from building surfaces, at 30-feet height in Zone 5 with smallest effective area per Chapter 6 of ASCE 7-05, Section R301.2 of the 2009/2012.IRC, and Section 1609.1.1 of the 2009 IBC. ESK-1301 I Most Widely Accepted and Trusted Page 6 of 7 TABLE 4b—LAP SIDING -MAXIMUM ULTIMATE -COMPONENT AND CLADDING DESIGN WIND SPEED, V„R'•r PERFORMANCE CATEGORY MAXIMUM WALL STUDSPACING3 (inches) SIDING WIDTH (inches) MAXIMUM ULTIMATEWIND PRESSURE (psf) MAXIMUM ULTIMATE DESIGN WIND SPEED, V„4(mph) Wind Exposure Category B C 0 16 6 130 200 180 180 8 93 180 160 150 12 59 150 130 120 rlis 16 6 130 200 180 180 8 93 180 160 150 12 59 150 130 120 24 6 86 180 160 140 8 62 160 130 120 12 39 120 - - for 51: 1 inch = 25.4 ;mm, 1 psf = 47.88 Pa. 1 mph =1.6 kph. `One fastener per stud located 34 Inch from the top edge of the siding. Each successive course of lap slding must overlap a minimum of 1 inch. Fastener must have a minimum head diameter of 0297 Inch, a minimum shaft diameter of 6.113 inch and a minimum length of 2.5 inches (Bd box nail), ZTabulaled values assume a fastener penetration of 1'!=inches into the wall studs. Wall studs must have a minimum specific. gravity of 0.42. `Three -second -gust; based on wind pressures acting toward and away from building surfaces, at 30-feet height in Zone 5 with smallest effective area per Chapter 26 of ASCE 7.10 and Section 1609.1.1 of the 201212015 IBC. TABLE Sa—PANEL SIDING - MAXIMUM NOMINAL (ALLOWABLE) COMPONENT AND CLADDING DESIGN WIND SPEED, V„,' PERFORMANCE MAXIMUM WALL FASTENER SPACING' MAXIMUM MAXIMUM NOMINAL CATEGORY STUD SPACING (inches c.c.) ALLOWABLE WIND (ALLOWABLE) WIND SPEED, (inches) PRESSURE (psf) V„♦(mph) Edges Field Wind Exposure Category D 16 .6 12 32 0 90 6 65 0 125 318 24 6 12, 22 - 6 43 0 100 16 B 72 32 90 65 JB 0 125 r!e6 24 6 12 22 .43 0 100 16 612 32 90 6 65 0 125 24 6 12 22 6 43 1 100 For 81: 1 inch = 25.4 Mm, 1 psf =47.88 Pa, 1 mph = 1.6 kph. 'Tabulated values assume a fastener penetration of 1'.!2 inches into the wall studs. rWafl studs must have a minimum specific gravity of 0.42. 3Fastener must have a minimum head diameter of 0.297 inch, a minimum shaft diameter of 0.113 inch and a minimum length of 2.5 inches S8d boxnaip. Three -second -gust; based on wind pressures acting toward and away from building surfaces, at 30-feet in Zone 5 with smallest effective area per Chapter 6 of ASCE 7-05, Section R301.2 of the 20C9/2012 IRC, and Section 1809.1.1 of the 2009 IBC. ESR-1301 I Most Widely Accepted and Trusted Page 7 of 7 TA13LE 5b—PANEL SIDING -MAXIMUM ULTIMATE COMPONENT AND CLADDING DESIGN WIND SPEED, V„ Q' PERFORMANCE CATEGORY MAXIMUM WALL STUD SPACING (inches) FASTENER SPACING' ' (inches o.c.) MAXIMUMULTIMATE WIND PRESSURE (psf) MAXIMUM, ULTIMATE DESIGN WIND SPEED, Vurc (mph) Edges Field Wind Exposure Category B C D 'rn 16 6 12 . 54 140 120 115 6 IDS 200 160 160 24 fi 12 36 120 - - 6 72 160 140 130 rIs 16 6 12 54 140 120 115 6 108 200 160 160 24 6 12 36 120 - - 6 72 160 140 130 16 6 12 54 140 120 115 6 108 200 160 160 . 24 '6 6 72 160 140 130 For Si: 1 Inch = 25.4 ram, 1 psi = 47.88 Pa, 1 mph =1.6 kph. 'Tabulated values assume a fastener penetration of 1%inches Into the wall studs. 'Wail studs must have a minimum specific gravity of 0.42. 'Fastener must have a minimum head diameter of 0.297 inch, a minimum shaft diameter of 0.113 inch and a minimum length of 2.5 inches (ad box nail). 'Three -second -gust; based on wind pressures acting toward and away from building surfaces, at 30-feet height In Zone 5 with smallest effective area per Chapter 26 of ASCE 7-10 and Section 1609.1A of the 2012/2015 IBC. DISCLAIMER APA Product Report® is a trademark of APA — The Engineered Wood Association, Tacoma, Washington. [CC -ES E4aluatian Report is a trademark of ICC Evaluation Service, LLC (ICC-ES). The information contained herein Is based on the product evaluation in accordance with the references noted in this report. Neither ICC-ES, nor APA or Its members make any warranty, expressed or Implied, or assume any legal liability or responsibility for the use, application of, and/or reference,to opinions, 8ndings, conclusions, or recommendations included in this report .The joint ICC-ESIAPA Evaluation Reports are not to be construed as representing aesthetics or any other attributes. notspecifically addressed, nor are they to be construed as an endorsement of the subject of the report or a recommendation for its use. Consult the local jurisdictionor design professional to assure compliance with code, construction, and performance requirements. Because neither APA, nor ICC-ES, has any control over quality of workmanship or the conditions under which engineered wood products are used, it cannot accept responsiblity for product performance or designs as actually constructed. Application Instructions g Fiber Substrate LapSlding A$ ;i' Ai . A- Perfection Shingle Lap Siding • Store off the ground well supported, on a flat well -drained surface. (Diagram 1a) • Additional support may be required to achieve a safe clearance from the ground. • Store products under a roof or separate waterproof covering. (Diagram 1a) • When the waterproof covering is removed, cut all unit banding. • Keep siding clean and dry. Inspect prior to installation. 1 a General Information At the time of manufacture, siding meets or exceeds the performance standards setforth In Composite Panel Association ANSI 135.6 and has achieved code recognition under FSR-3090 and CCMC 12353-L. For copies of these reports, call LP Customer Support at 800-64MB93 or go online at https.//Ipcorp.com/resources/product-literature/#: LP's application Instructions describe the minimum requirements needed to assure LP° SmartSgd& LimitedWarranty coverage. Failure to follow the LP application Instructions could result in reduced product service life and may lead to denial of Before You Begin Minimum 6 inch clearance must be maintained between siding and finish grade. Siding applied adjacent to porches, patios, walks, etc must have a clearance of at least 1 inch above any surface. Siding must not be In direct contact with masonry, concrete, brick, stone, stucco or mortar. Backer rod Is recommended to properly space materials at these location. Minimum 1 Inch clearance from roof surfaces. (Diagram 2a) Apply siding in a manner that prevents moisture intrusion and water buildup. All exposed wood substrate must be sealed in a manner that prevents moisture intrusion and water build up. To achieve this, use primer, paint, sealant and flashings as follows in these application Instructions. • Do not use staples. • Siding is designed to be installed directly to wood structural panel wall sheathing. Trim Trim should be thick enough so the siding does not extend beyond the face of the trim. • Trim and fascia must be applied in a manner that will not allow moisture intrusion orwater buildup. Moisture Control • Moisture control and moisture vapor control are critical elements of proper housing design and construction. Check your local building codes for application procedures for handling moisture and water vapor in your area. • Follow all applicable building code specifications relating to prevention of moisture intrusion Into the wall assembly. LP.' SmartSide° siding is a wood product, and, as with all wood products, must be kept free from excessive moisture. Lack of proper ventilation; exposure to constant or repetitive sources of water such as sprinklers, condensation, inadequate flashing; improper sealing; or failure to follow common building practices that prevent moisture intrusion into the wall system may cause damage, and products subject to such treatment will be excluded from warranty coverage. • As with all wood products, do not apply engineered wood siding to a structure having excessive moisture conditions such as drying concrete, plaster, or wet blown cellulose insulation. If such conditions exist, the building should be well ventilated to allow it to dry prior to the application of the siding. • Gutters with kick -out flashing and eave drip edge are recommended for control of roof water rur.-off. Flashing, Windows, Doors &Openings - All openings must be properly sealed or flashed in a manner that prevents moisture intrusion or buildup. Several examples that accomplish this are shown on the following pages. Secondary Water -Resistant Barrier • A properly installed breathable water -resistive barrier is required behind the siding. Consult your local building code for details, • LP will assume no responsibility for water penetration, or damage it may cause. Water Run -Off Control Properly installed flashing materials will help direct water away from common water collecting areas. All flashing material shall be metal or another durable material that under normal outdoor environmental conditions will last fora' period of not less than 50 years. All flashing materials must have a minimum 4 inch upper leg. Add a 4 inch wide adhesive flashing to flashing legs less than 4 inches. Properly integrate flashing with the secondaryWRB. Use housewrap, 2a flashing tape, kickout flashing, step flashing, Z-Flashing, drip edge, gutters or other items as needed to maintain the counter -flashing principle. • Install kickout flashing to direct the water into the gutter. (Diagram 2a) • Install step flashing'that has a minimum 4 inch upper leg. (Diagram 2a) • Maintain a minimum 1 inch clearance between the end of the gutter and the adjoining wall to allow for proper maintenance of the siding. (Diagram 2b) • Do not extend the siding or trim into the kickout flashing or gutter. • Prime and paint ALL exposed cut edges of siding. 2b Cutting • For the cleanest cut and longer blade life; a fine-tooth carbide tipped blade is recommended. • Siding is manufactured with,a special edge coating which reduces moisture -related issues. If siding is ripped you must take speclal care to prime, paint and seal all exposed wood fiber as described in the finishing section. • Climb cut the surface of the siding such that the rotation of the blade cuts downward on the primed or prefinished surface. • Do not miter edges. General Application Equipment Ring Shank Diameter z 0.092" Hot -Dipped Galvanized CONDITION CORRECTION Snug 'g}t{}„ OK� 0 Flush i?M ku OK Visible Fiber "(;�i '�1�` Paint Countersunk Apply Sealant 1/161-1/8'(2 mm-3 mm) Countersunk Apply Sealant& — more than 1/8" 0 mm) k.47 re -nail Table 3a Fastening Instructions - Sheathing only Install over wood structural panels a minimum 7/16 Category with an APA°Trademark that contains the consensus Standard DOC PS 1 or PS 2. Exception: LP° FlameBlock' Fire -Rated OSB Sheathing. Fastener length: Long enough to fully penetrate wood structural panel sheathing by at least 1/4 inch. Ensure that the ring shanks of the fastener fully engage the wood structural panel sheathing. (Diagram 3a) Fastener placement: A minimum 3/4 inch down from top edge of siding. Fasteners shall be placed 1 inch from ends, excluding the width of the shiplap. (Diagram 3a) Fastener spacing: Space ring shank nails a maximum of 8 inches o.c. across the top of siding. (Diagram 4a) • Use a minimum 0.092 inch diameter shank, hot -dipped galvanized or stainless steel ring shank nail. Fasteners shall be corrosion resistant and capable of preventing rust, stain and deterioration under normal outdoor environmental conditions fora period of no less than 50 years. • Fasteners: Minimum 0.092 inch diameter, hot -dipped galvanized (ASTM A-153) or stainless steel ring shank nail. Apply and correct overdriven nails as shown inTable 3a. 3a Sealant: Use an exterior -quality, non - hardening, paintable sealant. Use a Class 25 or higher exterior sealant meeting the ASTM C920 Standard for Specification for Elastomeric Joint Sealants. Follow the sealant manufacturer's instructions for application. Paint: An exterlor-quality 100% acrylic latex paint, specially formulated for use on wood and engineered wood substrates, is highly recommended, Semi -gloss or satin finish oil or alkyd paints are acceptable. -For flat alkyd palnt,.please check with the coating manufacturer for their recommendations for use on composite wood siding. Sheathing 3/4'min. (19 mm) Nail fully penetration sheathing - at least 1/4" (6 mm) Reveal5-1/2' to 6.1/2'— (140 mm to 165 mm) Water - Resistive Barrier 1-1/2"min.. (3B mm) — overlap Fastening Instructions - Sheathing Only (continued) Apply siding to wall assembly directly to wood structural panel sheathing. Begin by naliing a starter strip (approximately 3/8 inch thick x 1-1/2 inch wide) flush with bottom edge of sill plate. Starting from left to right, level and Install the siding so the bottom edge is no more than 1/2 inch below the starter strip. Use the alignment bead in shiplap edge as a spacing guide. Do not overlap the alignment bead. (Diagrams 4b &5b) To obtain the best staggered joint appearance of siding, cut and fasten the starter pieces of each course according to the following steps: o Cut •1 st course starter piece 3/4 inch from the left, this will remove onlythe top shiplap from the overall length of panel, o Cut 2nd course starter piece 13Inches from the left, that measurement includes the length of the shiplap, o Cut3rd course starter piece 6Inches from the left, that measurement includes the length of the shiplap, o Cut 4th course,starter piece 8 inches from the left, that measurement includes the length of shiplap, o Repeat this same sequence every four courses. (Diagram 4a) Lap a minimum of 1-1/2 inches. This will vary based on siding reveal selected. Reveal can be between 5-1/2to 6-1/2 inches. The siding should fit against corner trim boards leaving a 3/16 inch space, the opposite shiplap edge is facing up to receive the next piece of siding. Corner trim Cut l��ljl - ff (203 • from left side lfll%I... m o vGY-------------------- �pz�. - f Erg 4 ng II�ISTIILLATtOAL .. y t -- r Alternative Fastening Option: Rigid Foam Insulation over Furring Strips, or on Concrete/Masonry Walls over Furring Strips Install over a minimum 1x4 nominal size Southern Pine furring strips with a specific gravity greaterthan or equal to 0.55, no more than 16 Inches o.c. in wind speed areas less than or equal to 200 mph. Fastened with a minimum 0.120!rich shank diameter, hot dip galvanized (ASTM A153) or stainless steel ring shank nail. Nail a minimum 314 inch down from top edge of the siding. Lap a minimum of 1-1/2 inches. This will vary based on siding reveal selected. Reveal can be 5-1/2 to 6-1/2 inches. Blind nail with a minimum of two ring shank nails per furring strip. (Diagram 6a) Shiplap joints shall occur over furring strips. (Diagram 6a) Fastener length shall fully penetrate a minimum 1 /2 inch into furring strips. Caution: fastener shall not bottom out on a masonry wall leaving the fastener head less than flush with the face of trim or siding. Siding shall be installed to safely resist all loads, Including wind loads, of the locally adopted building codes. The installation of siding shall result in a system that provides a load path that meets the requirements for the transfer of loads from their point of origin through the load -resisting elements to the structure. The mechanical connection of the furring strip to structure is the responsibility of a design professional. LP assumes no liability for any loss or damage caused by the design of the mechanical connection of the furring strip to the structure and is expressly released by the purchaser or owner from any such loss or liability. • The 2015 IRC and 2014 Florida Residential Code require a water-resistant barrier be used on all exterior walls, except over concrete or masonry walls per Exception 1 in Section 11703.1.1 of both Codes. LP always requires the use of WRB behind LP° SmartSide° products. LP will assume no responsibility for any damage or condition arising from a failure to use a WRB. • Louisiana-Pacific will assume no responsibility for any damage or condition arising from the use of rigid foam insulation M • MlnIrnum 2 fasteners per furring strip • Minimum 4 fasteners per furring strip at shipla p joint Finishing Instructions • Prime all exposed wood substrate before painting. • Thoroughly paint the bottom edges of siding, especially all cut ends next to the roof line. • Apply paint as soon as possible and within 1So days of application. • Follow the coating manufacturer's application and maintenance instructions. DO NOT USE: • Semi -transparent and transparent stain. • Shake and shingle paints. • Vinyl -based resin formulas such as vinyl acetate, PVA, vinyl acetate/acrylic copolymer paints. CAUTION: HANDLE PREFINISHED LP SMARTSIDE PRODUCTS WITH EXTREME CARE DURING STORAGE AND APPLICATION. TOUCH UP ANY DAMAGETO THE FINISH THAT MAY OCCUR DURING APPLICATION PER PREFIN15HERS SPECIFICATIONS'. LIMITED WARRANTY The Louisiana-Pacific Corporation ("LP) LP" SmartSide°Trim and Siding (the"Products") Limited Warranty (the"Warranty") applies only to structures on which the Products have been applied, finished and maintained in accordance with the published application, finishing and maintenance Instructions In effect at the time of application. Products affected by a failure to follow such application, finishing or maintenance instructions ("Affected Products") will be excluded from coverage under the Warranty. LP assumes no liability for any loss or damage caused by the Affected Products and is expressly released by the purchaser or owner from any such loss or liability. Any modification of the Warranty or the application, finishing and maintenance requirements is void unless approved in writing by LP prior to application. For a copy of the warranty or Installation andtechnicalsupport, visittheLPWeb site at. WWW.IPCOrp.COM WARRANTY REMEDIES ARE NOT AVAILABLE IF REQUIREMENTS ARE NOT FOLLOWED. or for additional support call 800-450-6106 Cal. Prop 65 Warning: Use of this product may result in exposure to wood dust, known to the State of California to cause cancer., Louisiana-Pacific Corporation 414 Union Street, Suite 2000 Nashville,TN 37219 www.ipcorp.com www.lpsmartside.com rW. 02017 Louisiana-Pacific Corporation. All rights reserved: LP, SmartSide, and FlameBlock are registered trademarks of Louisiana-Pacific Corporation. APA Is a registered trademark of APA -The Engineered Wood Association. NOTICE: Louisiana-Pacific Corporation periodically updates and revises Its product information. The information In this document is subject to change without notice. To verify that this vefsion is current, call 800-450-6106. LPZB0766 7/17 ItV BUILDING PRODUCTS LP® SmartSide®38 Series Strand Substrate Vertical Siding for. Board & Batten Applications This Technical Note provides guidance for the application of LP° SmartSide° 38 Series Strand Substrate Vertical Siding for Board & Batten Applications. Additional application information may be found in LP® SmartSide° Strand Substrate Panel Siding Application Instructions and LP° SmartSide® Trim and Fascia Application Instructions. LP SmartSide 38 Series Strand Substrate Vertical Siding for Board & Batten applications, according to the following requirements. Siding must be installed over a minimum 7/16 Category wood structural panels with an APA Trademark that contains the consensus Standard DOC PSI or PS 2. o Exception: LP® FlameBlock® Fire -Rated OSB Sheathing ■ Vertical Siding or Batten may only span one plate -to -plate. Due to plate shrinkage, each vertical application is not to span beyond one floor to ceiling distance, or one floor to top of gable distance. (See Figures 4 & 5) • Vertical Siding SHALL NOT be installed horizontally. • Battens must be a minimum 0.5 x 2.5 inches actual size. • Finish/Paint: o Prime and paint all field cuts and exposed ends following the paint manufacturer's instructions • Vertical Siding must be. spaced a minimum of 3/16 (See Figure 3) • Sealant is not required in any vertical joint covered by Batten and backed by a WRB. ■ Minimum Fastener Type for Vertical Siding: o Corrosion Resistant— Hot -dipped galvanized (ASTM A153) or stainless steel o Ring Shank o Shank diameter = 0.091 inch o Head diameter = 0.221 inch o Length = fastener shall be long enough to fully penetrate structural panel sheathing. Ensure that the ring shanks of the nail fully engage the wood structural panel wall sheathing. — Caution: Choose a fastener length that will not damage wiring or other utilities in the exterior wall assembly Page 1 of 5 Date Created: 12122/2015 Last Revision: n!a ADDRESS 414 Union Street Suite 2000 Nashville, TN Tel. (615) 966-5606 FAX (615)966.5666 WEB w Jpavp.w Fastener Placement for Vertical Siding: o Maximum 3/8 inch from ends and edges (See Figure 2) Fastener Spacing for Vertical Siding: o Fastened a maximum of 6 o.c. along the perimeter (See Figure 2) a .Minimum Fastener Type for Batten: o Corrosion. Resistant — Hot -dipped galvanized (ASTM A153) or stainless steel o Ring Shank — Ring Shank nails provide superior resistance to fastener pull -through. in Hurricane -Prone Regions or locations where negative wind, loads area concern, ring shank nails should be used. — Trim nails may be used in other locations with the following cautions: Do not overdrive or counter sink the fastener, nail flush with the surface of batten. Batten nails shall be installed per the length, placement, spacing and quantity requirements listed in this document. Detachment. of batten is not covered by the LP SmartSide limited warranty whether ring shank or trim nails are used. o Shank diameter = 0.091 inch o Head diameter = 0.221 inch Length = fastener shall be long enough to fully penetrate Vertical Siding — Caution: Choose a fastener length that will not damage wiring or other utilities in the exterior wall assembly a Fastener Placement for Battens: o Maximum 3/8 inch from ends and edges (See Figure 1) ■ Fastener Spacing for Battens: o Fastened with two nails at both ends, with additional fasteners spaced a maximum of 12 inches o.c. along alternating edges the length of the batten (See Figure 1) ■ Do not bridge floors with Vertical Siding or Battens. Create a horizontal joint between floors. (See Figure 4) ■ Vertical Siding must be applied in a manner that will not allow moisture intrusion or water buildup. • Referto LP° SmartSide® Strand Substrate Panel Siding Application Instructions and LP° SmartSidea Trim and Fascia Application Instructions for additional application information. Page 2 of 5 Date Cleated: 12/2212016 Last Revision: We ADDRESS 414 Union Street Suite 2000 Nashville, TN TEL (615)9a6.5600 W (615) 986-5666 VM �.lp=fp.mm Batten LP® SmartSidem Trim/Batten .12" o.c. max: 3/8" max. from ends and edges Figure 1 Page 3 of 5 Date Created: 12/22/2016 Last ReNsion: n1a Vertical Siding Figure 2 LP® SmartSide° Vertical Siding 3/8" max. from ends and edges 6" o.c. max. dMMS 414 ❑nlon Street Suite 2000 NeShvIIJe, TN TIM (615) 98a-5600 LIU (615)980-5868 WES w Jpcorp.cam Figure 3 Data Created; 12t2212016 Last Revision: nla Page 4 of 5 LP° SmartSide® Trim/Batten LP° SmartSidem Vertical Siding min. 3/16" space Water -Resistive Barrier Wall Sheathing Fastener ADDRESS 414 Union Street Suite 2000 Nashville, TN TEL (615) 98&5600 Mx (615) 986-5666 WES www.lpoorp.com Two Story One Floor to Celling Horizontal Joint between Floors LP° SmartSide@ Trim/Batten — LP° SmartSide° Vertical Siding - 4" Wide Adhesive Flashing ed Metal Z-flashing Floor Sheathing Wall Sheathing Water -Resistive Barrier � door Framing 3rtSide® Siding artSide® itten — Figure 4 Page 5 of 5 Date Created. 12122f2016 Last Revision: n/a One Story one Plate -to -Plate Figure 5 ADDRESS 414 Union Street SEOL 2000 Nwhville, TN TXL (615)986.5600 PAX (615) 986-5666 ws5 MWAPco'p.com �Y p �� !.-`V�, a1 S Clue~. . -i�r l LP BUILDING PRODUCTS Installing LP®SmartSide®Trim and Lap Siding on Concrete or Masonry Walls over Furring Strips in Florida (V.uIt Wind Speeds) This Technical Note is an addendum to the LP° SmartSide° Trim and Fascia, and LPm SmartSide° Lap siding Application Instructions ("Instructions"). It is intended to provide an alternative fastening option for LP SmartSide trim and lap siding on concrete or masonry walls overfurring strips. The instructions remain effective except as may be modified by this Note. Refer to the Instructions for all other aspects of product installation. Trim and lap siding maybe installed on concrete or masonry walls over furring strips: • Trim and lap siding must be installed over a minimurn-1x4 nominal size Southern Pine furring strips with a specific gravity greater than or equal to 0.55. o Install furring strips no more than 16"o.c. in wind speed areas less than or equal to 200 MPH' • Siding shall be installed to safety support all loads, including wind loads, of the locally . adopted building codes. The installation of siding shall result in a system that provides a load path that meets the requirements for the transfer of loads from their point of origin through the load -resisting elements to the structure. The mechanical- connection of the furring strip to the concrete or masonry structure is the responsibility of a design professional. LP assumes no liability for any loss or damage caused by the design of the mechanical connection of the furring strip to the concrete or masonry structure and is expressly released by the purchaser or owner from any such loss or liability. • Minimum Fastener Type: o Corrosion Resistant —Hot Dipped Galvanized or equal (ASTM A153)2 o RingShank3 o Shank diameter= 0,120 inch o Head diameter = 0.270 inch o Length =fastener shall fully penetrate a minimum 1/2 inch into nailable furring Caution: fastener shall not bottom out on masonry wall leaving the fastener head less than flush with the face of trim or siding. Page 1 of 3 Date Created 12/0412015 Last Revision: 12117/2015 d0DB2S8 414 Union Street Sufte2000 Nashville, TN TEL (615) 985-5600 PAX (615) 986.5666 W103 w Jpwrp.wm The 2012 IRC and 2014 Florida Residential Code require a water-resistant barrier be used on all exterior walls, except over concrete or masonry walls per Exception 1 in Section R703.1.1 of both Codes. LP always requires the use of a WRB behind LP° SmartSide° products. LP has no responsibility for any damage arising from a failure to use a WRB. Lap Siding Limitations: o For use with Strand substrate lap (all widths) and/or Fiber substrate lap (up to 8 inches wide only) o Excluding Cedar Shake Fiber Lap, Bold Profiles Fiber Lap, Self -Aligning Fiber Lap, and SmartLockl° Strand Lap Fastening Requirements: o Place fasteners 3/4 inch from top edge of lap siding o Increase minimum lap siding overlap to 1-1/8 inch o Blind nail two fasteners per furring strip (every 16" o.c.) Min. 9x4 Furring Strips Fasteners • 2 nails per furring (4 nails at butt joints) • Nails spaced 3/4" from top edge of lap and 3/8" from ends of lap (approximately 1" apart) • 1-1/8" min. lap siding overlap. Page 2 of Date Created: 12104/2015 Last Revision: 12/17/2015 ADDRESS 414 Union Street Sune 2000 Nashville, TN IT, (615)986.5600 E41 (618) 086-56a6 WRB w .JPmry.mm Trim ■ Limitations: o In Florida where high negative wind loads area concern, box or common nails should be used. . — Trim nails may be used in Non -Hurricane -Prone Regions with:the following cautions: Do not overdrive or counter sink the fastener, nail flush with the surface of trim. Detachment of trim is not covered by the LP® SmartSide® limited warranty whether common, box, or trim nails are used. Fastening Requirements: o Two fasteners spaced a maximum of every 24 inches c.c. along the length of the trim, or two fasteners at both ends with additional fasteners spaced a maximum of every 12 inches o.c. along alternating edges the length of the trim. o Trim under 7 inches wide use a minimum of 2 nails per width. Trim 7 to 12 inches wide use a minimum of 3 nails per width. Trim over 12 inches wide use a minimum of 4 nails per width. 'Wind speed is Ultimate Design Wind Speed/ Zone S/ 10 f6l30 foot height. See 2014 FRC. z Corrosion resistance and capable of preventing rust, stain and deterioration of the fasteners under normal outdoor environmental conditions for a period of no less than 50 years. For further information or guidance, consult your nail supplier/manufacturer. 3 Ring shank nails shall be capable of the performance specified inTable dA Rine -Shank Nail Withdrawal Loads of APA publication TT-109, Wood Structural Panels Used as Nailable Sheathing when tested in accordance with ASTM D 1761, Standard Test Method for Mechanical Fasteners in Wood and NDS-2015. Forfurther information orguidance, consult your nail supplier/manufacturer. Page 3 of 3 Date Created: 12/04/2015 Last Revision: 12117l2015 - DDOESS 414 Union Street Suite 2000 Nashville, TN Ufa (615) 086-5600 FAX (815) 986-5666 Im VMMlPcotP.eom