FireDOC Search

displaying 261 - 270 results in total 374

• Price, D.; Pyrah, K.; Hull, T. R.; Milnes, G. J.; Ebdon, J. R.; Hunt, B. J.; Joseph, P.; Konkel, C. S.
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  Flame Retarding Poly(methyl methacrylate) With Phosphorus-Containing Compounds: Comparison of an Additive With a Reactive Approach.
  University of Salford, UK
  Polymer Degradation and Stability, Vol. 74, No. 3, 441-447, 2001

• Tsai, K. C.; Drysdale, D.
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  Modelling the Early Stages of Upward Flame Spread.
  Edinburgh Univ., Scotland
  Volume 1
  Volume 1
  Interscience Communications Ltd.; Building Research Establishment; National Fire Protection Association; National Institute of Standards and Technology; Society of Fire Protection Engineers; and Swedish National Testing and Research Institute. Interflam 2001. (Interflam '01). International Interflam Conference, 9th Proceedings. Volume 1. September 17-19, 2001, Interscience Communications Ltd., London, England, Edinburgh, Scotland, 707-718 p., 2001

• Urbas, J.
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  BDMC Interlaboratory Cone Calorimeter Test Program.
  Pacific Fire Laboratory, Kelso, WA
  Fire and Materials, Vol. 26, No. 1, 29-35, January/February 2002

• Ndubizu, C. C.; Ananth, R.; Tatem, P. A.
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  Effects of Non-Uniform Surface Regression on the Stability and Spreading of a PMMA Boundary Layer Flame Near the Extinction Limit.
  Geo Centers Inc., Fort Washington, MD; Naval Research Laboratory, Washington, DC
  NIST SP 984
  NIST SP 984
  June 2002
  Halon Options Technical Working Conference, 12th. Proceedings. HOTWC 2002. April 30-May 2, 2002, Albuquerque, NM, Gann, R. G.; Reneke, P. A., Editors, 1-11 p., 2002

• Zheng, G.; Wichman, I. S.; Benard, A.
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  Opposed-Flow Ignition and Flame Spread Over Melting Polymers With Navier-Stokes Gas Flow.
  CD-ADAPCO, Melville, NY; Michigan State University, East Lansing
  Combustion Theory and Modelling, Vol. 6, No. 2, 317-337, June 2002
  National Institute of Standards and Technology, Gaithersburg, MD,

• Butler, K. M.
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  Numerical Model for Combustion of Bubbling Thermoplastic Materials in Microgravity.
  National Institute of Standards and Technology, Gaithersburg, MD
  NISTIR 6894
  NASA-John H. Glenn Research Center at Lewis Field, Cleveland, OH, NISTIR 6894
  August 2002
  67 p.

• Chow, C. L.; Chow, W. K.; Fong, N. K.; Jiang, Z.; Han, S. S.
  view article (1.0)

  Assessing Fire Behavior of Common Building Materials With a Cone Calorimeter.
  DCL Consultants Limited, Hong Kong, China; Hong Kong Polytechnic Univ., China
  International Journal on Architectural Science, Vol. 5, No. 4, 91-98, 2004

• Price, D.; Pyrah, K.; Cunliffe, L. K.; Hull, T. R.; Milnes, G. J.; Ebdon, J. R.; Hunt, B. J.; Joseph, P.
  view article (1.0)

  Studies on the Combustion Behavior of Some Novel Flame Retarded Polymer Systems.
  University of Salford, England
  Recent Advances in Flame Retardancy of Polymeric Materials: Materials, Applications, Research and Industry Developments, Markets. Volume 12. Business Communications Co., Inc. (BCC). May 21-23, 2001, Business Communications Co., Inc., Norwalk, CT, Stamford, CT, Lewin, M., Editors, 1-13 p., 2001

• Esfahani, J. A.
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  Oxygen-Sensitive Thermal Degradation of PMMA: A Numerical Study.
  Ferdowski University of Mashhad, Iran
  Combustion Science and Technology, Vol. 174, No. 10, 183-198, October 2002

• Zeng, W. R.; Li, S. F.; Chow, W. K.
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  Preliminary Studies on Burning Behavior of Polymethylmethacrylate (PMMA).
  University of Science and Technology of China, Anhui; Hong Kong Polytechnic Univ., China
  Journal of Fire Sciences, Vol. 20, No. 4, 297-317, July 2002