FireDOC Search

displaying 31 - 40 results in total 145

  • Mehaffey, J. R.; Takeda, H.
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    Predicting Heat Transfer Through Wood Stud Walls Exposed to Fire.
    Forintek Canada Corp., Vancouver, Canada; Forintek Canada Corp., Ontario, Canada
    National Institute of Standards and Technology (NIST) and Society of Fire Protection Engineers (SFPE). International Conference on Fire Research and Engineering (ICFRE). Proceedings. September 10-15, 1995, SFPE, Boston, MA, Orlando, FL, Lund, D. P.; Angell, E. A., Editors, 568-573 p., 1995

  • Sultan, M. A.
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    Effect of Gypsum Board Density and Glass Fibre in Gypsum Board Core on the Fire Resistance of Lightweight Frame Wall Assemblies.
    National Research Council of Canada, Ottawa, Ontario
    Interscience Communications Limited. Fire and Materials. 4th International Conference and Exhibition. Proceedings. November 15-16, 1995, Crystal City, VA, 115-123 p., 1995

  • Richardson, L. R.; McPhee, R. A.
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    Fire-Resistance and Sound-Transmission-Class Ratings for Wood-Frame Walls.
    Forintek Canada Corp., Ottawa, Canada; Canadian Wood Council, Ottawa, Canada
    Fire and Materials, Vol. 20, No. 3, 123-131, May/June 1996
    Product Safety Corporation. International Conference on Fire Safety, 20th. Volume 20. Proceedings. January 9-13, 1995, Product Safety Corp., Sunnyvale, CA, Millbrae, CA, 241-255 p., ['1995', '1996']

  • Sultan, M. A.; Lougheed, G. D.
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    Fire Resistance of Gypsum Board Wall Assemblies.
    National Research Council of Canada, Ottawa, Ontario
    Construction Canada, Vol. 37, No. 2, 27-28,33,35-37, 1995
    NRCC 37867; IRC-P-3713; Construction Technology Update No. 2,

  • Sultan, M. A.
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    Model for Predicting Heat Transfer Through Noninsulated Unloaded Steel-Stud Gypsum Board Wall Assemblies Exposed to Fire.
    National Research Council of Canada, Ottawa, Ontario
    Fire Technology, Vol. 32, No. 3, 239-259, August/September 1996

  • American Society for Testing and Materials
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    Standard Test Methods for Physical Testing of Gypsum Board Products and Gypsum Lath.
    American Society for Testing and Materials, Philadelphia, PA
    ASTM Designation C 473-95, 1995, 11 p.

  • Bradford, J. S.
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    Fire Resistance of a Non-Load Bearing Wall of 5/8-in. Type X Gypsum Board on 2x3-in. FRTW Studs.
    California Univ., Berkeley
    Wood Preserving, 1-4, November 1966
    American Wood Preservers Inst., Washington, DC,

  • Cooper, L. Y.
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    Thermal Response of Gypsum-Panel/Steel-Stud Wall Systems Explosed to Fire Environments - A Simulation for Use in Zone-Type Fire Models.
    National Institute of Standards and Technology, Gaithersburg, MD
    NISTIR 6027, June 1997, 54 p.

  • McGarry, A. J.; Milke, J. A.
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    Full-Scale Room Fire Experiments Conducted at the University of Maryland. Test Report.
    Maryland Univ., College Park
    National Institute of Standards and Technology, Gaithersburg, MD, NIST GCR 97-716, March 1997, 26 p.

  • Richardson, L. R.; Batista, M.
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    Revisting the Component Additive Method for Light-Frame Walls Protected by Gypsum Board.
    Forintek Canada Corp., Ottawa
    Fire and Materials, Vol. 21, No. 3, 107-114, May/June 1997