FireDOC Search

displaying 171 - 180 results in total 189

  • Clarke, F.
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    Current Fire Issues in ISO TC 92.
    Benjamin Clarke Associates Inc., Arlington, VA
    Fire Risk and Hazard Assessment Research Application Symposium. Research and Practice: Bridging the Gap. Proceedings. Fire Protection Research Foundation. July 24-26, 2002, Baltimore, MD, 118-126 p., 2002

  • Lomakin, S. M.; Usachev, S. V.; Koverzanova, E. V.; Shilkina, N. G.; Ruban, L. V.; Zaikov, G. E.
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    Polymer Nanocomposites and Intercalated Flame Retardants. New Approaches to reduce Plastics Combustibility.
    Russian Academy of Science, Moscow
    Oxidation Communications, Vol. 25, No. 2, 165-183, 2002

  • Chae, K. H.; Hur, M. S.; Lee, Y. S.
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    Experimental Study on the Fire Resistance of Lightweight Polymer Concrete.
    Woosong Technical College, Korea
    TS 4-7-3 Fire Engineering (2),
    Tall Buildings in Historical Cities: Culture and Technology for Sustainable Cities. Volume 2. Proceedings. Council on Tall Buildings and Urban Habitat (CTBUH) 2004 Seoul Conference. October 10-13, 2004, Seoul, Korea, Lee, L. H.; Klemencic, R.; Kim, S. D., Editors, 743-747 p., 2004

  • Hutchen, N. B.
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    Fire Performance.
    National Research Council of Canada, Ottawa, Ontario
    National Concrete Products News, Vol. 10, No. 4, 1-3, 1962
    Technical Paper No. 189,

  • Gregory, S.; Green, A.; Grayson, S.; Kumar, S.; Cornelissen, A.
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    Use of the Cone Calorimeter for Testing Materials With Low Heat Release Rates.
    Fire Testing Technology Ltd.; Interscience Communications Ltd., London, England
    Fire and Materials 2005. 9th International Conference. Conference Papers. Proceedings. Organised by Interscience Communications Limited. January 31-February 1, 2005, Interscience Communications Limited, London, England, San Francisco, CA, 63-75 p., 2005

  • Carpenter, K.; Janssens, M.
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    Using Heat Release Rate to Assess Combustibility of Building Products in the Cone Calorimeter.
    Southwest Research Institute, San Antonio, TX
    Fire Technology, Vol. 41, No. 2, 79-92, April 2005

  • Havel, G.
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    Impact-Resistant Drywall.
    Fire Engineering, Vol. 158, No. 4, 107-110, April 2005

  • Hager, S.; Skorpenski, R.; Blaszkiewicz, M.; Masciantonio, M.
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    Performance of HS-HR Flexible Foams in Small Open-Flame Combustibility Tests.
    Bayer Polymers LLC, South Charleston, WV; Bayer Polymers LLC, Pittsburgh, PA
    Journal of Cellular Plastics, Vol. 40, No. 4, 315-340, July 2004

  • Bastin, B.; Paleja, R.; Lefebvre, J.
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    Fire Behavior of Polyurethane Foams.
    Shell Chemicals, Ottignies Louvain-la-Neuve, Belgium; Laboratory PERF (Procédés d'Elaboration de Revêtements Fonctionnels) UPRES EA, Villeneuve d'Ascq, France
    Journal of Cellular Plastics, Vol. 39, No. 4, 323-340, July 2003

  • Hergenrother, P. M.; Thompson, C. M.; Smith, J. G., Jr.; Connello, J. W.; Hinkley, J. A.; Lyon, R. E.; Moulton, R.
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    Flammability of Epoxy Resins Containing Phosphorus.
    NASA Langley Research Center, Hampton, VA; Federal Aviation Administration, Atlantic City International Airport, NJ; National Institute of Aerospace, Hampton, VA; Applied Poleramic Inc., Benicia, CA
    Department of Transportation, Washington, DC, DOT/FAA/AR-TN05/44, Novmeber 2005, 32 p.