FireDOC Search

displaying 1 - 10 results in total 10

  • Summerfield, M.; Shinnar, R.; Hermance, C. E.; Wenograd, J.
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    Critical Review of Recent Research on the Mechanism of Ignition of Solid Rocket Propellants.
    Princeton Univ., NJ
    Air Research and Development Command, Washington, DC, AEL 661, August 26, 1963, 48 p.
    14th Congress of International Astronautics Federation. September 1963., Paris, France, 1963

  • Sokolskii, V. N.
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    Russian Solid-Fuel Rockets,
    Academy of Sciences of the USSR
    NASA TT F-415; TT 66-51152, 240 p.
    Russian Solid-Fuel Rockets, Israel Program Scientific Translations, Jersulem, Kozlov, S. G., Editors, 1967

  • Ramohalli, K.
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    Concept for Improved Fire-Safety Through Coated Fillers.
    California Institute of Technology, Pasadena
    National Aeronautics and Space Admin., Washington, DC, WSS/CI 77-16,
    Combustion Institute/Western States Section. Combustion of Cellulosic Fuels--Combustion Technology for Pollution Control. Spring Meeting, 1977. April 18-19, 1977, Seattle, WA, 1-34 p., 1977

  • Jensen, A. V.
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    Hazards of Chemical Rockets and Propellants Handbook. Volume 2. Solid Rocket Propellant Processing, Handling, Storage and Transportation.
    Johns Hopkins Univ., Silver Spring, MD
    Department of the Navy, Washington, DC, CPIA/194, May 1972, 99 p.

  • Magee, R. S.; McAlevy, R. F., III
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    Investigation of Flame Spreading Over the Surface of Igniting Solid Propellants. Final Summary Report.
    Stevens Institute of Technology, Hoboken, NJ
    National Aeronautics and Space Administration, Washington, DC, NASA-CR-111942; Report ME-RT 70009, March 31, 1971, 74 p.

  • Chorpening, B. T.; Brewster, M. Q.
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    Emission Imaging of AP/HTPB Propellant Sandwich Combustion.
    National Energy Technology Laboratory, Morgantown, WV; Department of Mechanical and Industrial Engineering, Urbana, IL
    Combustion Science and Technology, Vol. 174, No. 4, 39-60, April 2002

  • Chu, W. W.; Yang, V.; Majdalani, J.
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    Premixed Flame Response to Acoustic Waves in a Porous-Walled Chamber With Surface Mass Injection.
    Pennsylvania State University, University Park; Marquette University, Milwaukee
    Combustion and Flame, Vol. 133, No. 3, 359-370, May 2003

  • Sarou-Kanian, V.; Rifflet, J. C.; Millot, F.; Gokalp, I.
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    Dissolution Kinetics of Carbon in Aluminum Droplet Combustion: Implications for Aluminized Solid Propellants.
    CNRS/CRMHT, 45071 Orléans Cedex 2, France; CNRS/ICARE, 45071 Orléans Cedex 2, France
    Combustion and Flame, Vol. 149, No. 4, 329-339, June 2007

  • Hunter, L. W.; Chang, Y.; Oguz, H. N.; Wilkerson, J. T.; Lennon, A. M.; Cain, R. P.; Carkhuff, B. G.; Thomas, M. E.; Walts, S. C.; Mitchell, C. A.; Blodgett, D. W.; Terry, D. H.
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    Environment Created by an Open-Air Solid Rocket Propellant Fire.
    Johns Hopkins University Applied Physics Laboratory, Laurel, MD
    Combustion Science and Technology, Vol. 179, No. 5, 1003-1027, May 2007

  • Massa, L.
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    Spatial Linear Analysis of the Flow in a Solid Rocket Motor With Burning Walls.
    Texas Univ., Arlington
    Combustion and Flame, Vol. 156, No. 4, 865-888, April 2009