0 Most Widely Accepted and Trusted ICC-ES Evaluation Report ICC-ES 000 (800) 2-6587 (562) 699-05 www.icc-es.org ESR-787 Issued 07/2017 This report is subject to renewal 07/2018. DIVISION: 05 00 00 METALS SECTION: 05 10 00 STRUCTURAL METAL FRAMING SECTION: 05 20 00 METAL JOISTS SECTION: 05 0 00 COLD-FORMED METAL FRAMING SECTION: 05 2 00 COLD-FORMED METAL JOIST FRAMING REPORT HOLDER: ispan SYSTEMS LP 70 BRENTWOOD DRIVE PRINCETON, ONTARIO N0J 1V0 CANADA EVALUATION SUBJECT: COMPOSITE TOTALJOIST BY ispan Look for the trusted marks of Conformity! 201 Recipient of Prestigious Western States Seismic Policy Council (WSSPC) Award in Excellence A Subsidiary of 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 ICC Evaluation Service, LLC, express or implied, as to any finding or other matter in this report, or as to any product covered by the report. Copyright 2017 ICC Evaluation Service, LLC. All rights reserved.
ICC-ES Evaluation Report ESR-787 Issued July 2017 This report is subject to renewal July 2018. www.icc-es.org (800) 2-6587 (562) 699-05 A Subsidiary of the International Code Council DIVISION: 05 00 00 METALS Section: 05 10 00 Structural Metal Framing Section: 05 20 00 Metal Joists Section: 05 0 00 Cold-Formed Metal Framing Section: 05 2 00 Cold-Formed Metal Joist Framing REPORT HOLDER: ispan SYSTEMS LP 70 BRENTWOOD DRIVE PRINCETON, ONTARIO N0J 1V0 CANADA (519) 58-222 www.ispansystems.com EVALUATION SUBJECT: COMPOSITE TOTALJOIST BY ispan 1.0 EVALUATION SCOPE Compliance with the following codes: 2015, 2012 and 2009 International Building Code 2015, 2012 and 2009 International Residential Code Property evaluated: Structural 2.0 USES Composite TotalJoist by ispan is used to provide a structural floor system..0 DESCRIPTION.1 General: The Composite TotalJoist by ispan floor system is comprised of cold-formed steel framing (TotalJoist ), coldformed steel deck (Total-Lewis-Deck), and a concrete deck slab. The system acts compositely to provide a structural floor system. See Figure 1 for an illustration of the system..2 Composite TotalJoist : Composite TotalJoist is a proprietary I-shaped coldformed steel framing member. Composite TotalJoist is illustrated in Figure 2 and designations are noted in Table 1. The joists have large web openings capable of passing mechanical, electrical, and plumbing utilities within the plenum. The holes are located at a minimum of 0 inches (762 mm) from the end of the member to the center of the hole and at distances of no less than 6 inches (91 mm) on center. Two smaller holes, 1 11 / 2 inch ( mm) in diameter, are placed with the large hole. The Composite TotalJoist is available in minimum base steel thicknesses of 0.0570 inch (1.8 mm) and 0.071 inch (1.80 mm), and is cold-formed from galvanized steel coils conforming to ASTM A65, HSLAS Grade 60. The steel has a minimum G60 galvanization coating designation in conformance with ASTM A65. The Composite TotalJoist has a steel shoe welded to each end to provide an end restraint for the concrete deck. The shoe is comprised of an angular piece of steel fabricated from steel conforming to CSA G0.21 50W (ASTM A572) and a strut and a diagonal conforming to ASTM A1011 SS Grade 50 or ASTM A1008 SS Grade 50. All of the steel used in the shoe is painted after fabrication with a zinc-rich paint. The joist bridging is cold-formed from galvanized steel coils conforming to ASTM A65, SS Grade. The steel has a minimum G60 galvanization coating designation in conformance with ASTM A65.. Total-Lewis-Deck: The Total-Lewis-Deck is a proprietary cold-formed steel deck placed on top of the Composite TotalJoist. It has a minimum base metal thickness of 0.021inch (0.587 mm) and is cold-formed from galvanized steel coils conforming to ASTM A65, SS Grade 50, Class 1, or. The steel has a minimum G60 galvanization coating designation in conformance with ASTM A65.. Concrete: Structural concrete, plain or reinforced, is placed on the Total-Lewis-Deck at thicknesses noted in Table 2. The concrete must be in accordance with IBC Chapter 19 and must have a minimum compressive strength (f c ) of 000 psi (20,685 kpa). Concrete deck slab thickness ranges from inches (76 mm) to 5 inches (127 mm)..5 Fasteners: Fasteners attaching the Total-Lewis-Deck to the Composite TotalJoist must be either No. 10 16-by- / -inch HWH T/ screws complying with ASTM C151 or Hilti X-HSN-2 (ESR-2197) powder-driven fasteners..0 DESIGN AND INSTALLATION.1 Design: The design moment for the system must be no greater than the maximum factored moment (M rc ) specified in Table 2. The equivalent steel moment of inertia (I xc ), specified in Table 2 is used to determine deflections using the standard deflection equations for a simply supported 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 ICC Evaluation Service, LLC, express or implied, as to any finding or other matter in this report, or as to any product covered by the report. Copyright 2017 ICC Evaluation Service, LLC. All rights reserved. Page 1 of 5
ESR-787 Most Widely Accepted and Trusted Page 2 of 5 beam. The modulus of elasticity (E) for steel is used in the deflection equations..2 Installation: TotalJoist framing members must be installed in accordance with the applicable code, the approved construction documents and this report. If there is a conflict between the construction documents submitted for approval and this report, this report governs. The approved construction documents must be available at the jobsite at all times during installation. For all installations: Blocking/bridging must be provided at intervals of not more than 10 feet (08 mm). Minimum end bearing must be inches (76 mm). Attachment of the Composite TotalJoist to the supporting walls must be in accordance with standard engineering practice for the wall supporting the Composite TotalJoist. Fasteners, as specified in Section.5 above, are used to attach the Total-Lewis-Deck to the Composite TotalJoist. The fasteners must be installed in accordance with the manufacturer s installation instructions and placed at a spacing not exceeding 7 inches (178 mm) o.c. as illustrated in Figure. Concrete, as specified in Section. above, is placed on the Total-Lewis-Deck. See Table 2 for required thickness. 5.0 CONDITIONS OF USE The Composite TotalJoist by ispan floor system described in this report complies with, or is a suitable alternative to what is specified in, those codes listed in Section 1.0 of this report, subject to the following conditions: 5.1 Complete construction documents and calculations verifying compliance with this report must be submitted to the code official for each project. The calculations and construction documents must be prepared and sealed by a registered design professional where required by the statutes of the jurisdiction in which the project is to be constructed. 5.2 Installations are limited to simple span gravity load conditions. 5. Support of any load, other than dead and live loads from the deck above, by the Composite TotalJoist is outside the scope of this report. 5. Composite TotalJoist framing members must not be cut or notched, or have additional holes placed in them. 5.5 Composite TotalJoist framing members are manufactured by ispan Systems LP at their facility located in Princeton, Ontario, Canada, under a quality control program with inspections by ICC-ES. 6.0 EVIDENCE SUBMITTED 6.1 Data in accordance with ICC-ES Acceptance Criteria for Open Web Steel Joists Supporting Concrete Decks (AC), dated February 2006, editorially revised October 2016. 6.2 Data in accordance with ICC-ES Acceptance Criteria for Cold-formed Steel Framing Members (AC6), dated June 2012, editorially revised April 2015. 7.0 IDENTIFICATION At a spacing not exceeding 96 inches (20 mm) on center, each TotalJoist is stamped with the ispan Systems name; the member designation as provided in Table 1; and the evaluation report number (ESR-787). The Total-Lewis-Deck is marked with the ispan Systems LP name; the minimum base metal thickness (in inches or mils), the minimum specified yield strength (50 ksi [0 mpa]); and the evaluation report number (ESR-787). SECTION IDENTIFICATION MEMBER DEPTH 1 TABLE 1 TOTALJOIST MEMBERS FLANGE DESIGN STEEL THICKNESS MINIMUM BASE STEEL THICKNESS 8-ic- 8.0 2.0 0.0600 0.0570 8-ic- 8.0 2.0 0.0750 0.071 x 2 10-ic- 10.0 2.0 0.0600 0.0570 10-ic- 10.0 2.0 0.0750 0.071 7 1 / 8 x 1 / 2 12-ic- 12.0 2.0 0.0600 0.0570 12-ic- 12.0 2.0 0.0750 0.071 11 7 / 8 x 6 1 / 6 1-ic- 1.0 2.0 0.0600 0.0570 1-ic- 1.0 2.0 0.0750 0.071 15 1 / 2 x 8 16-ic- 16.0 2.0 0.0600 0.0570 16-ic- 16.0 2.0 0.0750 0.071 17 7 / 8 x 10 18-ic- 18.0 2.0 0.0750 0.071 17 7 / 8 x 10 For SI: 1 inch = 25. mm 1 Member depth is measured from outside face to outside face of flanges. HOLE SIZE
ESR-787 Most Widely Accepted and Trusted Page of 5 SLAB DEPTH 1 5 TABLE 2 COMPOSITE TOTALJOIST BY ISPAN DESIGN VALUES JOIST 2" O.C. 6" O.C. 8" O.C. DEPTH 2 SECTION Weight I IDENTIFICATION xc M rc Weight I xc M rc Weight I xc M rc (psf) (in ) (k-ft) (psf) (in ) (k-ft) (psf) (in ) (k-ft) 8 8-ic- 5.7 29.9 25.0 5.0 1.9 25..6. 25. 8-ic- 6.2 5.5 0.6 5. 8.0 1.0.9 9.7 1.2 10 10-ic- 5.9 2.6 1. 5.1 5.0 1.7.7 6.7 1.8 10-ic- 6.5 50.8 8. 5.5 5.9 8.9 5.0 56.0 9.1 12 12-ic- 6.2 58.5 9.9 5. 61. 0.2.8 6. 0. 12-ic- 6.8 70.0 8.9 5.7 7.8 9.5 5.1 76. 9.8 1 1-ic- 6. 76. 8. 5. 79.8 8.8.9 82.1 9.0 1-ic- 7.1 91.6 59. 5.9 96.1 60.0 5. 99.1 60. 16 16-ic- 6.6 97.1 57.5 5.6 101.0 58.0 5.0 10.0 58. 16-ic- 7. 117.0 70.7 6.1 122.0 71.5 5. 126.0 71.9 18 18-ic- 7.7 155 82.9 6. 162.0 8.8 5.6 167.0 8. 8 8-ic- 7.8 8.1 27.7 7.0 1.6 27.9 6.7.7 28.1 8-ic- 8..9.9 7. 8.9. 6.9 52.2.5 10 10-ic- 8.0 51.8.2 7.2 55.7.5 6.8 58.9.7 10-ic- 8.5 61.5 2.0 7.5 66.0 2. 7.0 69.6 2.6 12 12-ic- 8. 68.8.1 7. 7.1. 6.9 76.6.6 12-ic- 8.9 82.2 52.9 7.8 87. 5. 7.2 91.2 5.7 1 1-ic- 8.5 87.8 51.8 7.5 92.5 52. 7.0 96.2 52.5 1-ic- 9.2 105.0 6.7 8.0 111.0 6. 7. 115.0 6.7 16 16-ic- 8.7 110.0 61. 7.7 115.0 61.8 7.1 119.0 62.0 16-ic- 9.5 12.0 75. 8.2 18.0 76.1 7.5 1.0 76.5 18 18-ic- 9.8 17.0 87.9 8. 182.0 88.8 7.7 187.0 89. 8 8-ic- 59.9 9.2 0. 59.1 55.7 0.6 58.8 61.7 0.7 8-ic- 60. 57.2 7.2 59.5 6.1 7.5 59.0 70. 7.7 10 10-ic- 60.1 6.8 7.1 59.2 70.5 7. 58.8 76.7 7.5 10-ic- 60.6 7.9 5.5 59.6 82. 5.9 59.1 88.8 6.2 12 12-ic- 60. 81.8 6. 59. 88.9 6.6 59.0 95. 6.8 12-ic- 61.0 96.8 56.8 59.9 105.0 57. 59. 111.0 57.7 1 1-ic- 60.6 102.0 55. 59.6 109.0 55.7 59.1 116.0 55.9 1-ic- 61. 121.0 68.0 60.1 129.0 68.6 59.5 16.0 69.0 16 16-ic- 60.8 125.0 65.0 59.7 12.0 65.5 59.2 19.0 65.8 16-ic- 61.6 19.0 80.0 60. 158.0 80.8 59.6 165.0 81.1 18 18-ic- 61.8 19.0 92.9 60. 20.0 9.8 59.7 212.0 9.2 For SI: 1 inch = 25. mm, 1 psf = 16.02 kg/m, 1 in = 16,21 mm, 1 k-ft = 160 N-m 1 Slab Depth = Depth of the concrete slab measured from the bottom of the deck to the top of the slab. 2 Joist Depth = Member depth is measured from outside face to outside face of flanges. Weight = Total weight of joist, tributary area of steel deck, and tributary area of normal-weight concrete. I xc = Equivalent steel moment of inertia about the x-axis for the composite cross-section. 5 M rc = Maximum available strength [factored resistance] positive moment for the composite cross-section. For allowable strength design (ASD) multiply by 0.665.
ESR-787 Most Widely Accepted and Trusted Page of 5 1) Composite TotalJoist 2) Total-Lewis-Deck ) Concrete Slab ) TotalJoist Bridging / Cross Bridging FIGURE 1 COMPOSITE TOTALJOIST BY ispan FLOOR SYSTEM Cross Section Shoe FIGURE 2 COMPOSITE TOTALJOIST
ESR-787 Most Widely Accepted and Trusted Page 5 of 5 FIGURE TOTAL-LEWIS-DECK