FireDOC Search

displaying 321 - 330 results in total 832

  • Janssens, M. L.
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    Fundamental Thermophysical Characteristics of Wood and Their Role in Enclosure Fire Growth.
    National Forest Product Assoc., Washington, DC
    Thesis
    Thesis
    September 1991
    492 p.

  • Ishida, H.
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    Initiation of Fire Growth on Fuel-Soaked Ground.
    Nagaoka National College of Technology, Japan
    Fire Safety Journal, Vol. 18, No. 3, 213-230, 1992

  • International Organization for Standardization
    view article (1.0)

    Tests for Measuring "Reaction-to-Fire" of Building Materials: Their Development and Application. Second Edition.
    International Organization for Standardization, Geneve, Switzerland
    ISO TR 3814:1989 (E)
    ISO TR 3814:1989 (E)
    December 15, 1989
    16 p.

  • Delichatsios, M. M.; Mathews, M. K.; Delichatsios, M. A.
    view article (1.0)

    Upward Fire Spread and Growth Simulation.
    Factory Mutual Research Corp., Norwood, MA
    International Association for Fire Safety Science. Fire Safety Science. Proceedings. 3rd International Symposium. July 8-12, 1991, Elsevier Applied Science, New York, Edinburgh, Scotland, Cox, G.; Langford, B., Editors, 207-216 p., 1991

  • Karlsson, B.; Magnusson, S. E.
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    Combustible Wall Lining Materials: Numerical Simulation of Room Fire Growth and the Outline of a Reliability Based Classification Procedure.
    Lund Univ., Sweden
    International Association for Fire Safety Science. Fire Safety Science. Proceedings. 3rd International Symposium. July 8-12, 1991, Elsevier Applied Science, New York, Edinburgh, Scotland, Cox, G.; Langford, B., Editors, 667-678 p., 1991

  • Kokkala, M.
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    Two Classification Indices Based on the Cone Calorimeter Results.
    VTT-Fire Technology Lab., Finland
    Interscience Communications Limited. Heat Release and Fire Hazard. 1st U. S. Symposium. Abstracts. December 1991, San Diego, CA, 29-40 p., 1991

  • Bill, R. G., Jr.; Kung, H. C.; Vincent, B. G.; Brown, W. R.; Hill, E. E., Jr.
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    Predicting the Suppression Capability of Quick Response Sprinklers in a Light Hazard Scenario. Part 2. Actual Delivered Density (ADD) Measurements and Full-Scale Fire Tests.
    Factory Mutual Research Corp., Norwood, MA
    Journal of Fire Protection Engineering, Vol. 3, No. 3, 95-107, July/August/September 1991
    U.S. Fire Administration, Washington, DC,

  • Bill, R. G., Jr.; Kung, H. C.; Brown, W. R.; Hill, E. E., Jr.; Spaulding, R. D.
    view article (1.0)

    Predicting the Suppression Capability of Quick Response Sprinklers in a Light Hazard Scenario. Part 1. Fire Growth and Required Delivered Density (RDD) Measurements.
    Factory Mutual Research Corp., Norwood, MA
    Journal of Fire Protection Engineering, Vol. 3, No. 3, 81-937, July/August/September 1991
    U.S. Fire Administration, Washington, DC,

  • Foster, R.
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    Fire Protection in the Sydney Harbor Tunnel.
    Fire International, Vol. 16, No. 132, 28-31, December 1991/January 1992

  • Bluhme, D. A.; Ostman, B. A. L.
    view article (1.0)

    Comparison of European Fire Test Methods for Building Products. Project 7. EUREFIC Fire Research Program.
    Danish Institute of Fire Technology, Copenhagen, Denmark
    UDC 614.841 620.1:691
    UDC 614.841 620.1:691
    December 1991
    95 p.