FireDOC Search

displaying 1 - 10 results in total 40

• Thomas, P. H.
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  On the Thermal Conduction Equation for Self-Heating Materials With Surface Cooling.
  Fire Research Station, Borehamwood, England
  Transactions of the Faraday Society, Vol. 54, 60-65, 1958

• Thomas, P. H.
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  Approximate Theory of "Hot Spot" Criticality.
  Fire Research Station, Borehamwood, England
  Combustion and Flame, Vol. 21, 99-109, 1973

• Pedersen, G. H.; Eckhoff, R. K.
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  Initiation of Gas Explosions by Heat Generated During Single Impacts Between Solid Bodies.
  Swedish Fire Research Board, Stockholm, Sweden
  CMI 863302-1, December 1986, 37 p.

• Beausoliel, R. W.; Meese, W. J.; Galowin, L. S.
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  Exploratory Study of Temperatures Produced by Self-Heating of Residential Branch Circuit Wiring When Surrounded by Thermal Insulation.
  National Bureau of Standards, Gaithersburg, MD
  Department of Energy, Washington, DC, NBSIR 78-1477, July 1978, 52 p.

• Zalesinski, M.; Baker, E.; Grantham, W.; Wojcicki, S.
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  Control System Model for Coal Dust Flame Acceleration.
  Warsaw Technical Univ., Poland; Washington State Univ., Pullman
  WSS/CI Paper 84-16,
  Combustion Institute/Western States Section. Spring Meeting, 1984. April 2-3, 1984, Boulder, CO, 1-13 p., 1984

• Fung, F. C.
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  Computer Program for the Thermal Analysis of the Fire Endurance of Construction Walls.
  National Bureau of Standards, Gaithersburg, MD
  NBSIR 77-1260, June 1977, 61 p.

• Kubler, H.
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  Heat Generating Process as Cause of Spontaneous Ignition in Forest Products.
  Wisconsin Univ., Madison
  Forest Products Abstracts, Vol. 10, No. 11, 299-327, November 1987

• Nakaya, I.; Akita, K.
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  Evaluation of Heat Generation in Enclosure Fires.
  Tokyo Univ., Japan
  Bulletin of Japanese Association of Fire Science and Engineering, Vol. 32, No. 1, 33-39, 1982

• Hotta, H.; Oka, Y.; Sugawa, O.
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  Interaction Between Hot Layer and Updraft From a Smoldering Fire Source. Part 1. An Experimental Approach.
  Nohmi Bosai Kogyo Co. Ltd., Tokyo, Japan; Science Univ. of Tokyo, Japan
  Fire Science and Technology, Vol. 7, No. 2, 17-25, 1987
  CIB W14/88/47 (J), 1987, 20 p.

• Ebihara, N.; Handa, T.; Yamamoto, H.; Nagashima, T.
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  Flame Reterdation Mechanism of Polypropyrenes and Phenolic Laminates.
  Toshiba Electric Co., Ltd., Kawasaki, Japan; Science Univ. of Tokyo, Japan; Tokyo Fire Dept., Japan
  Fire Science and Technology, Vol. 3, No. 1, 25-33, 1983