Resources for Roof Deck & Composite Floor Deck

 

DESIGN MANUALS AND GUIDES

CSSBI B13-19: Design of Steel Deck Diaphragms – 4th Edition

Special: Design in Cold Formed Steel Seminar Handout

 

STANDARDS & SPECIFICATIONS

CSSBI 10M-18: Standard for Steel Roof Deck

CSSBI 12M-18: Standard for Composite Steel Deck

CSSBI S2-17: Criteria for the Testing of Composite Slabs

CSSBI S20-18: Short Form Specification for Steel Roof Deck

 

CSSBI S3-19: Criteria for the Design of Composite Slabs

 

CSSBI S3-19R: Criteria for the Design of Composite Slabs (Redline)

ENVIRONMENTAL PRODUCT DECLARATIONS

CSSBI EPD-1-16: Environmental Product Declaration Roll Formed Steel Panels (Industry-wide)

 

HOW TO SERIES

CSSBI S15-12: How To Series – Steel Roof Deck and Composite Floor Deck

 

FACT SHEETS

CSSBI SSF 06-12: Metallic Coated Sheet Steel for Structural Building Products

 

CSSBI SSF 08-13: Glossary of Commonly Used Terms for Structural Building Products

 

CSSBI SSF 10-12: Sheet Steel Gauges – What They Mean

 

CSSBI SSF 11-99: Estimators Checklist

 

CSSBI SSF 16-18: Acoustic Properties of Perforated Steel Deck

 

CSSBI SSF 17-05: CSSBI Position Paper on using Welded Washers with Steel Deck

 

CSSBI SSF 20-14: Recycled Content of Steel Building Products

 

CSSBI SSF 23-08: CSSBI Position Paper on Attachment of Roofing Membranes to Steel Deck

 

CSSBI SSF 27-10: Effects of Acoustic Perforations on the Bending Strength and Stiffness of Steel Roof Deck

 

CSSBI SSF 28-10: Position Paper on the Design Responsibility for Steel Deck Diaphragms

 

CSSBI SSF 29-10: Installation Guidelines for Steel Deck Shear Diaphragms

 

CSSBI SSF 30-10: Effects of Acoustic Perforations on the Web Crippling Strength of Steel Roof Deck

 

CSSBI SSF 33-11: Wet Storage Staining of Galvanized and Galvannealed Steel Sheet

 

CSSBI SSF 9-19: Design Method for Steel Deck Diaphragms

ENVIRONMENTAL FACT SHEETS

AISI EFS-1: Which is the more sustainable building material – wood or steel?

 

AISI EFS-2: The benefits of steel vs. wood for mid-rise building construction

 

AISI EFS-4: Life cycle assessment of wood and steel utility distribution poles

 

CSSBI EFS-1: Steel and the green movement

 

OTHER

Special: Strong, Safe, Affordable and Sustainable Steel – The Obvious Choice for Mid-Rise Construction

 

Special: LEEDing with Steel 2009

 

Special: LEEDv4 and Steel

CASE STUDIES

CS 10-05: Art Gallery of Hamilton – Hamilton, ON

 

CS 102-17: Steel: unparalleled fire safety

 

CS 105-17: Edmonton Waste Management Integrated Process and Transfer Facility – Edmonton, Alberta

 

CS 106-17: LustreLokTM – New Acrylic Coating for Galvanized Steel

 

CS 111-18: Cost Savings in Steel

 

CS 112-18: Axcès Saint-Charles – Longueuil, Québec

 

CS 117-18: LustreLok Acrylic Coating – ArcelorMittal

 

CS 118-18: Red Deer College, Gary W. Harris Canada Games Centre – Red Deer, Alberta

 

CS 16-05: Park Royal Shopping Centre – The Village West Vancouver, BC

 

CS 20-06: Park One East and Park One West – Edmonton, AB

 

CS 37-09: Moose Cree First Nation Emergency Preparedness and Response Centre – James Bay, ON

 

CS 43-09: Calgary Water Centre – Calgary, AB

 

CS 50-10: Chemawawin Cree Nation K-12 School – Easterville, MB

 

CS 56-11: University of Waterloo Health Sciences Campus – Kitchener, ON

 

CS 67-11: Granite Ridge Retirement Residence – Gravenhurst, ON

 

CS 69-12: Steel for green building solutions

 

CS 71-12: King Fahad Medical City – Saudi Arabia

 

CS 73-12: Nunavut Trade Training Centre – Rankin Inlet, NU

 

CS 76-13: Eastern Ontario Christian Senior Housing Co-op – Ottawa, ON

 

CS 84-14: Pomeroy Place – London, ON

 

CS 90-15: George Brown College – Toronto, ON

 

CS 97-16: 401 Yonge Street – Toronto, ON

 

CS 98-16: Hyatt Place Edmonton West – Edmonton, AB

 

CS 99-16: ArcelorMittal participating in the green revolution