FireDOC Search

displaying 61 - 70 results in total 172

  • Frandsen, W. H.
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    Heat Evolved From Smoldering Peat.
    Intermountain Research Station, Ogden, UT
    International Journal of Wildland Fire, Vol. 1, No. 4, 197-204, 1991

  • Shaw, J. R.
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    Intermediate Scale Rate of Heat Release.
    Weyerhaeuser Fire Technology Lab., Longview, WA
    Interscience Communications Limited. Fire and Materials. International Conference, 1st. September 24-25, 1992, Arlington, VA, 43-50 p., 1992

  • Abrams, M. S.; D'Souza, M. V.; Higginson, P.; Metes, W. S.; Quintiere, J. G.; Parker, W. J.; Robins, R. F.; White, J. A.
    view article (1.0)

    Review of ASTM E84. An ASTM White Paper. Sixth (6th) Draft.
    Portland Cement Assoc., Skokie, IL; National Research Council of Canada, Ottawa, Ontario; Underwriters Laboratories, Inc., Northbrook, IL; National Bureau of Standards, Washington, DC; Hardwood Plywood Manufacturer's Assoc., Arlington, VA; Weyerhaeuser Co., Longview, WA
    6th Draft
    6th Draft
    February 1984
    114 p.

  • Janssens, M. L.; Parker, W. J.
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    Oxygen Consumption Calorimetry.
    National Forest Products Assoc., Washington, DC; National Institute of Standards and Technology, Gaithersburg, MD
    Chapter 3
    Chapter 3
    Heat Release in Fires, Elsevier Applied Science, NY, Babrauskas, V.; Grayson, S. J., Editors, 31-59 p., 1992

  • Parker, W. J.
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    Wood Materials. Part A. Prediction of the Heat Release Rate From Basic Measurements.
    National Institute of Standards and Technology, Gaithersburg, MD
    Chapter 11
    Chapter 11
    Heat Release in Fires, Elsevier Applied Science, NY, Babrauskas, V.; Grayson, S. J., Editors, 333-356 p., 1992

  • Babrauskas, V.
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    Aircraft Applications. Part C. Comparative Heat Release Rates for Aircraft Materials Measured in Different Apparatuses.
    National Institute of Standards and Technology, Gaithersburg, MD
    Chapter 17
    Chapter 17
    Heat Release in Fires, Elsevier Applied Science, NY, Babrauskas, V.; Grayson, S. J., Editors, 583-590 p., 1992

  • Gilman, W. D.; Davis, P. O.
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    Fire Fighting Demands Aerobic Fitness.
    St. Paul Department of Fire and Safety Services, MN; ARA/Human Factors, Burtonsville, MD
    NFPA Fire Journal, Vol. 87, No. 2, 68-73, March/April 1993

  • Tsuchiya, Y.
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    OSU Heat Release Rate Test Using the Oxygen Consumption Principle.
    National Research Council of Canada, Ottawa, Ontario
    ['DOT/FAA/CT-93/3', 'DOT/FAA/93/3']
    DOT/FAA/CT-93/3; DOT/FAA/93/3
    Federal Aviation Administration (FAA). International Conference for the Promotion of Advanced Fire Resistant Aircraft Interior Materials. February 9-11, 1993, Atlantic City, NJ, 225-232 p., 1993

  • Dahlberg, M.
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    SP Industry Calorimeter for Rate of Heat Release Measurements Up to 10 MW.
    Swedish National Testing and Research Inst., Boras, Sweden
    SP Report 1992:43
    SP Report 1992:43
    1992
    20 p.

  • Abramowitz, A.; Lyon, R. E.
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    Comparison of Heat Release Rate From Deconvoluted OSU and Oyxgen Consumption Principle Calorimeter Signals.
    Federal Aviation Administration, Atlantic City International Airport, NJ
    Interscience Communications Limited. Fire and Materials. International Conference, 2nd. September 23-24, 1993, Arlington, VA, 161-170 p., 1993