FireDOC Search

displaying 21 - 30 results in total 194

  • Gross, D.; Robertson, A. F.
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    Self-Ignition Temperatures of Materials From Kinetic-Reaction Data.
    National Bureau of Standards, Gaithersburg, MD
    Research Paper 2909
    Journal of Research of the National Bureau of Standards, Vol. 61, No. 5, 413-417, November 1958
    Research Paper 2909

  • Fernandez-Pello, A. C.; Hasegawa, H. K.; Lipska-Quinn, A. E.; Alvares, N. J.
    view article (1.0)

    On the Use of Thermal Degradation Data to Predict Cable Ignition Performance. PREPRINT.
    Lawrence Livermore National Lab., CA
    ['UCRL-97290', 'PREPRINT']
    Department of Energy, Washington, DC, UCRL-97290; PREPRINT
    October 15, 1987
    20 p.

  • National Materials Advisory Board
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    Classification of Dusts Relative to Electrical Equipment in Class II Hazardous Locations. Final Report.
    National Materials Advisory Board, Washington, DC
    NMAB-353-4
    Occupational Safety and Health Admin., Washington, DC, NMAB-353-4
    July 1982
    59 p.

  • Hirschfelder, J. O.
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    Effect of Chemical Reaction Order in Flame Propagation.
    Wisconsin Univ., Madison
    CM-975
    Naval Bureau Ordnance, Madison, WI, CM-975
    July 11, 1960
    20 p.

  • Jones, G. W.; Scott, G. S.
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    Extinction of Isobutane Flames by Carbon Dioxide and Nitrogen.
    Bureau of Mines, Pittsburgh, PA
    RI 4095
    RI 4095
    June 1947
    10 p.

  • Laurendeau, N. M.; Caron, R. N.
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    Influence of Hot Surface Size on Methane-Air Ignition Temperature.
    Purdue Univ., West Lafayette, IN; Little, (Arthur D.) Inc., Cambridge, MA
    Combustion and Flame, Vol. 46, No. 2, 213-218, May 1982
    Department of Energy, Washington, DC,

  • McQuaid, R. W.; Sheets, D. G.; Bieberich, M. J.
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    Determination of Autogenous Ignition Temperatures of a Steam Turbine Lubricating Oil in Nitrogen and Oxygen Mixtures.
    David Taylor Naval Ship R&D Center, Annapolis, MD; Naval Academy, Annapolis, MD
    ASTM STP 812
    ASTM STP 812
    American Society for Testing and Materials. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres. Sponsored by ASTM Committee G-4 on Compatibility and Sensitivity of Materials in Oxygen-Enriched Atmospheres. ASTM STP 812. March 31, 1982-April 1, 1982, ASTM, Philadelphia, PA, Phoenix, AZ, Werley, B. L., Editors, 43-55 p., 1982

  • Rakaczky, J. A.
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    Fire and Flammability Characteristics of Materials Used in Rail Passenger Cars. A Literature Survey.
    Army Ballistic Research Lab., Aberdeen Proving Ground, MD
    ARBRL-MR-03009
    ARBRL-MR-03009
    April 1980
    100 p.

  • Gillis, J. P.
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    Explosion Characteristics of Dust.
    Fenwal Inc., Ashland, MA
    Institute of Environmental Sciences' 1965 Annual Technical Meeting Proceedings., 481-484 p., 1965

  • Fire Protection Association
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    Explosion Hazard From Flammable Dusts.
    Fire Protection Assoc., London, England
    FPA Technical Info. 3012
    FPA Technical Info. 3012
    June 1966
    4 p.