FireDOC Search

displaying 1 - 10 results in total 38

  • Min, K.; Emmons, H. W.
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    Drying of Porous Media.
    Lowell Technological Inst., MA; Harvard Univ., Cambridge, MA
    National Science Foundation, Washington, DC, Home Fire Proj. Tech. Rpt. 8,
    Heat Transfer and Fluid Mechanics Institute, 1972 Proceedings, MA, Landis, R. B.; Hordemann, G. J., Editors, 1-18 p., 1972

  • Pyron, C. M.; Pears, C. D.
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    Mechanisms of Heat Transfer Through Porous Materials at Elevated Temperatures.
    Southern Research Inst., Birmingham, AL
    65-HT-46, 1965, 10 p.
    American Society of Mechanical Engineers. ASME-AIChE Heat Transfer Conference and Exhibit. August 8-11, 1965, Los Angeles, CA, 1965

  • Bomberg, M.; Shirtliffe, C. J.
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    Influence of Moisture and Moisture Gradients on Heat Transfer Through Porous Building Materials.
    National Research Council of Canada, Ottawa, Ontario
    ASTM STP 660, 1978, 23 p.
    Thermal Transmission Measurements of Insulation. American Society for Testing and Materials. Proceedings. ASTM STP 660. 1978, ASTM, Philadelphia, PA, Tye, R. P., Editors, 211-233 p., 1978

  • Sahota, M. S.; Pagni, P. J.
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    Heat and Mass Transfer in Porous Media Subject to Fires.
    Idaho National Engineering Lab., Idaho Falls; California Univ., Berkeley
    International Journal of Heat and Mass Transfer, Vol. 22, 1069-1081, 1979

  • Egyptian Standards Information Service (ESIS)
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    Sand and Gravel for Concrete--Sand and Gravel With Compact Structure, Definition, Designation, Requirements and Quality Control.
    DIN 4226 Sheet 1, January 1979, 24 p.

  • Egyptian Standards Information Service (ESIS)
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    Sand and Gravel for Concrete--Sand and Gravel With Porous Structure (Light Sand and Gravel) Definition, Designation, Requirements and Quality Control.
    DIN 4226 Sheet 2, January 1979, 18 p.

  • Egyptian Standards Information Service (ESIS)
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    Sand and Gravel for Concrete Tests of Aggregate With Compact or Porous Structure.
    DIN 4226 Sheet 3, January 1979, 21 p.

  • Scott, C. J.
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    Transient Temperature Response of a Thin-Walled, Transpiration-Cooled Porous Surface.
    Minnesota Univ., Minneapolis
    Journal of Heat Transfer, 1-7, 1967
    Paper 67-HT-27,

  • Sahota, M. S.
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    Heat and Mass Transfer in Porous Concrete Structures Subject to Fire.
    California Univ., Berkeley
    UCB FRG 76-15, September 1976, 165 p.

  • Garboczi, E. J.; Bentz, D. P.
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    Digitized Simulation of Mercury Intrusion Porosimetry.
    National Institute of Standards and Technology, Gaithersburg, MD
    National Institute of Standards and Technology and American Ceramic Society. Advances in Cementitious Materials. Ceramic Transactions. Volume 16. July 22-26, 1990, Gaithersburg, MD, Mindess, S., Editors, 365-379 p., 1991