FireDOC Search

displaying 61 - 70 results in total 284

  • Riley, D. W.
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    Fire Retardants as a Polymer Structure Control Element.
    Extrusion Engineers, Branchburg, NJ
    Society of Plastics Engineers AND Fire Retardant Chemicals Association. Fire Retardant Blends, Alloys and Thermoplastic Elastomers: Material Source--Processing--Applications and Testing. March 17-20, 1991, Fire Retardant Chemicals Assoc., Lancaster, PA, Hilton Head Island, SC, 37-45 p., 1991

  • Hill, K.; Hornstein, B.
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    Detection of Hydrogen-Air Fires and Explosions in Aerospace Vehicles Via OH Band and Water Band Emission. Technical Documentary Report. June 1, 1962-November 30, 1962.
    Air Force Materials Lab., Wright-Patterson AFB, OH
    ['ASD-TDR-63-113', 'Project 6075', 'Task No. 607501']
    ASD-TDR-63-113; Project 6075; Task No. 607501
    April 1963
    103 p.

  • U.S. Department of Agriculture
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    Specification for Nozzle Tips, Straight-Stream and Spray.
    Department of Agriculture, Washington, DC
    Specification 5100-244
    Specification 5100-244
    November 1973
    11 p.

  • Cantlin, J. H.; Williams, R. B.; Siebens, N. H.
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    Aircraft Power Plant Fire Protection. Final Report.
    C-O-Two Fire Equipment Co., Newark, NJ
    Final Report
    Final Report
    February 1948
    256 p.

  • Tan, Q.; Jaluria, Y.
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    Flow Through Horizontal Vents as Related to Compartment Fire Environments. September 29, 1990-September 30, 1991.
    Rutgers Univ., New Brunswick, NJ
    NIST GCR 92-607
    National Institute of Standards and Technology, Gaithersburg, MD, NIST GCR 92-607
    June 1992
    105 p.

  • Epstein, M.
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    Maximum Air Flow Rate Into a Roof-Vented Enclosure Fire.
    Fauske and Associates, Inc., Burr Ridge, IL
    Journal of Heat Transfer, Vol. 114, 535-538, May 1992

  • Pietrzak, L. M.; Dale, J. J.
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    User's Guide for the Fire Demand Model: A Physically Based Computer Simulation of the Suppression of Post-Flashover Compartment Fires.
    Mission Research Corp., Santa Barbara, CA
    ['NIST GCR 92-612', 'MRC-R-1364']
    National Institute of Standards and Technology, Gaithersburg, MD, NIST GCR 92-612; MRC-R-1364
    79 p.

  • Edwards, C. B.
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    Critical Flow Rate.
    FireTech Engineering, Inc., Vancouver, Canada
    Fire Engineering, Vol. 145, No. 9, 97-98, September 1992

  • Ran, H.; Hui, Z.
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    Experimental Study on the Combustion Behavior in Compartment Fire When the Fuel Gas are Excessive.
    University of Science and Technology of China, Hefei
    University of Science and Technology of China. Fire Science and Technology. Asian Conference, 1st (ACFST). October 9-13, 1992, International Academic Publishers, China, Hefei, China, Weicheng, F.; Zhuman, F., Editors, 373-379 p., 1992

  • Mowrer, F. W.
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    Closed-Form Estimate of Fire-Induced Ventilation Through Single Rectangular Wall Openings.
    Maryland Univ., College Park
    Journal of Fire Protection Engineering, Vol. 4, No. 3, 105-116, 1992