FireDOC Search

displaying 1871 - 1880 results in total 4589

  • Ay, J. H.; Sichel, M.
    view article (3.8635783)

    Theoretical Analysis of NO Formation Near the Primary Reaction Zone in Methane Combustion.
    Michigan Univ., Ann Arbor
    Combustion and Flame, Vol. 26, No. 1, 1-15, 1976

  • Toal, B. R.; Silcock, G. W. H.; Shields, T. J.
    view article (3.8635783)

    Examination of Piloted Ignition Characteristics of Cellulosic Materials Using the ISO Ignitability Test.
    Ulster Univ., Jordanstown, Northern Ireland
    Fire and Materials, Vol. 14, No. 3, 97-106, September 1989

  • Jones, W. W.; Ali, A. W.
    view article (3.8635783)

    Recombination Lasers From Cooled Hydrogenlike Plasmas.
    Naval Research Lab., Washington, DC
    Journal of Applied Physics, Vol. 48, No. 7, 3118-3119, July 1977

  • Ohe, H.; Matsuura, K.
    view article (3.8635783)

    Relation Between the Heat of Combustion and the Oxygen Index for High-Polymeric Materials.
    Fukui Univ., Fukui City, Japan
    Textile Research Journal, Vol. 45, No. 11, 778-784, November 1975

  • Blackmon, J. T.; Stickler, E. T.
    view article (3.8635783)

    Fire Sprinkler Network Analysis Program.
    Oak Ridge Y-12 Plant, TN
    Atomic Energy Commission, Washington, DC, Y-1916; UC-2, April 2, 1974, 95 p.

  • Gray, P.; Mullins, J.
    view article (3.8635783)

    Spontaneous Ignition and Stability in Closed and Open Systems. Part 1. Foundations: First-Order Reactions in the Adiabatic Case.
    Leeds Univ., England
    Journal of Chemical Society, Faraday Transactions 2, Vol. 83, 301-318, 1987

  • Ogawa, T.; Itagaki, H.; Nabeshima, J.; Sakai, H.; Suyama, S.
    view article (3.8635783)

    Prediction of Spontaneous Ignition Behavior of Powdery Organic Peroxide: Effect of Temperature Dependence of Thermal Conductivity.
    Yokohama National Univ., Japan; Nippon Oil and Fat Co., Ltd., Aichi, Japan
    Journal of Hazardous Materials, Vol. 23, No. 1, 73-87, 1990

  • Anderson, H. C.
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    New Thermogravimetric Relationships for Studying the Pyrolysis of Polymers.
    Naval Ordance Lab., Silver Spring, MD
    NOLTR 63-113, October 1963, 17 p.

  • Schwarcz, J. M.; Malone, W. M.; Blinder, S.
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    Rate of Smoke Evolution From Burning Polymeric Materials.
    NL Industries Inc., Highstown, NJ
    Journal of Fire and Flammability, Vol. 6, 554-568, October 1975

  • Hasemi, Y.; Yoshida, M.; Nohara, A.
    view article (3.8635783)

    Unsteady-State Upward Flame Spreading Velocity Along Vertical Combustible Solid and Influence of External Radiation on the Flame Spreading Velocity.
    Building Research Institute, Ibaraki-ken, Japan; Science University of Tokyo, Japan
    NISTIR 4449,
    U.S./Japan Government Cooperative Program on Natural Resources (UJNR). Fire Research and Safety. 11th Joint Panel Meeting. October 19-24, 1989, Berkeley, CA, Jason, N. H.; Cramer, D. M., Editors, 114-121 p., 1990