FireDOC Search

displaying 171 - 180 results in total 220

  • Babrauskas, V.
    view article (1.0)

    Charring Rate of Wood as a Tool for Fire Investigations.
    Fire Science and Technology Inc., Issaquah, WA
    Volume 2
    Volume 2
    Interflam 2004. (Interflam '04). International Interflam Conference, 10th Proceedings. Volume 2. July 5-7, 2004. Organised by Interscience Communications Ltd. in association with National Institute of Standards and Technology, Building Research Establishment; National Fire Protection Association; Society of Fire Protection Engineers; and Swedish National Testing and Research Institute, Interscience Communications Ltd., London, England, Edinburgh, Scotland, 1155-1170 p., 2004

  • Atreya, A.; Baum, H. R.
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    Fire Growth and Spread Models. (Model for Opposed Flow Flame Spread Over Charring Materials.) (Abstract/Presentation/Visuals)
    Michigan Univ., Ann Arbor; National Institute of Standards and Technology, Gaithersburg, MD
    NIST SP 998
    NIST SP 998
    May 2003
    Extended Abstracts and Presentations from the Workshop on Fire Growth and Spread on Objects, March 4-6, 2002, National Institute of Standards and Technology, Peacock, R. D.; Pitts, W. M., Editors, 2003

  • Liu, X.; Quintiere, J. G.
    view article (1.0)

    Flammability Properties of Clay-Nylon Nano-Composites.
    Federal Aviation Administration, Atlantic City International Airport, NJ
    THESIS
    THESIS
    December 2004
    183 p.

  • Himoto, K.; Tanaka, T.
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    Burning Model for Charring Materials and Its Application to the Compartment Fire Development.
    Kyoto Univ., Japan
    Fire Science and Technology (International Journal for Fire Science and Technology), Vol. 23, No. 3, 170-190, 2004

  • Zhang, J.; Shields, T. J.; Silcock, G. W. H.; Azhazkesan, M. A.
    view article (1.0)

    Behavior of Plywood Lining in Full Scale Room Fire Tests.
    Chapter 12
    Chapter 12
    Behavior of Glass and Other Materials Exposed to Fire. Volume 1. Chapter 12. Applied Fire Science in Transition Series, Baywood Publishing Co. Inc., Amityville, NY, DeCicco, P. R., Editors, 179-194 p., 2002

  • Jia, F.; Galea, E. R.; Patel, M. K.
    view article (1.0)

    Numerical Simulation of Fire Spread Within a Compartment Using an Integrated Gas and Solid Phase Combustion Model.
    Chapter 7
    Chapter 7
    Computer Applications in Fire Protection Engineering. Volume 3. Chapter 7. Applied Fire Science in Transition Series, Baywood Publishing Co. Inc., Amityville, NY, DeCicco, P. R., Editors, 101-126 p., 2002

  • Weng, W. G.; Hasemi, Y.
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    Model for Ceiling Flame Spread.
    Waseda Univ., Japan; University of Science and Technology of China
    Fire Science and Technology (International Journal for Fire Science and Technology), Vol. 24, No. 1, 1-15, 2005

  • Wei, P.; Jiang, P.; Han, Z.; Wang, J.
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    Investigation of the Effects of Zeolites on the Thermal Degradation and Charring of APP-PER by TGA-XPS.
    Shanghai Jiaotong Univ., Shanghai, China; Beijing Institute of Technology 100081, Beijing, China
    Journal of Fire Sciences, Vol. 23, No. 3, 173-184, March 2005

  • Konig, J.
    view article (1.0)

    Structural Fire Design According to Eurocode 5: Design Rules and Their Background.
    Swedish Institute for Wood Technology Research, Stockholm, Sweden
    Fire and Materials, Vol. 29, No. 3, 147-163, May/June 2005

  • Frangi, A.; Fontana, M.; Schleifer, V.
    view article (1.0)

    Fire Behavior of Timber Surfaces With Perforations.
    Swiss Federal Institute of Technology (ETH), Zurich, Switzerland
    Fire and Materials, Vol. 29, No. 3, 127-146, May/June 2005