FireDOC Search

displaying 701 - 710 results in total 1450

  • Hasemi, Y.; Yoshida, M.
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    Wall Fire Modeling and Its Relevance to Building Fire Safety Design.
    Building Research Inst., Ibaraki, Japan
    Science University of Tokyo, Japan. '93 Asian Fire Seminar. October 7-9, 1993, Tokyo, Japan, 117-127 p., 1993

  • Karpov, A. I.; Hirano, T.; Bulgakov, V. K.
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    Flame Spread Across the Combustible Materials Surface.
    Tokyo Univ., Japan; Khabarovsk State University of Technology, Russia
    Science University of Tokyo, Japan. '93 Asian Fire Seminar. October 7-9, 1993, Tokyo, Japan, 147-154 p., 1993

  • Schaffer, E. L.
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    Fire-Resistive Structural Design.
    Forest Products Lab., Madison, WI
    University of Colorado. International Seminar on Wood Engineering, Proceedings. April 3, 6, 8, 10, 1992, ['Boston, MA', 'Chicago, IL', 'Seattle, WA', 'Los Angeles, CA'], 47-60 p., 1992

  • Sweet, M. S.
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    Fire Performance of Wood: Test Methods and Fire Retardant Treatments.
    Forest Products Lab., Madison, WI
    Business Communications Co., Inc. Recent Advances in Flame Retardancy of Polymeric Materials: Materials, Applications, Industry Developments, and Markets. Volume 4. May 18-20, 1993, Business Communications Co., Inc., Norwalk, CT, Stamford, CT, Lewin, M., Editors, 36-43 p., 1993

  • Thompson, S. L.; Apostolakis, G. E.
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    Response Surface Approximation for the Bench-Scale Peak Heat Release Rate From Upholstered Furniture Exposed to a Radiant Heat Source.
    California Univ., Los Angeles
    Fire Safety Journal, Vol. 22, No. 1, 1-24, 1994
    National Institute of Standards and Technology, Gaithersburg, MD,

  • Thomas, P. H.
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    On Concurrent Upward Surface Spread of Flame.
    Lund Univ., Sweden
    Fire Safety Journal, Vol. 22, No. 1, 89-99, 1994

  • Puchovsky, M. T.
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    Improved Computer Algorithm for Growing Fires.
    Worcester Polytechnic Inst., MA
    Thesis, February 1991, 171 p.

  • Mantel, T.; Borghi, R.
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    New Model of Premixed Wrinkled Flame Propagation Based on a Scalar Dissipation Equation.
    Renault-Direction de la Recherche, Cedex, France; C.N.R.S., Cedex, France
    Combustion and Flame, Vol. 96, 446-457, 1994

  • Wichman, I. S.
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    Theory of Opposed-Flow Flame Spread.
    Michigan State Univ., East Lansing
    Progress in Energy and Combustion Science, Vol. 18, 553-593, 1992

  • Sidebotham, G. W.; Cross, J. A.; Wolf, G. L.
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    Test Method for Measuring the Minimum Oxygen Concentration to Support an Intraluminal Flame.
    Cooper Union for the Advancement of Science and Art, New York, NY; Brooklyn Union Gas Co., NY; State University of New York, Brooklyn, NY
    ASTM STP 1197,
    American Society for Testing and Materials. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres. Volume 6. Symposium Sponsored by ASTM Committee G-4 on Compatibility and Sensitivity of Materials in Oxygen Enriched Atmospheres. ASTM STP 1197. May 11-13, 1993, ASTM, Philadelphia, PA, Noordwijk, The Netherlands, Janoff, D. D.; Stoltzfus, J. M., Editors, 43-53 p., 1993