FireDOC Search

displaying 11 - 20 results in total 79

  • Holley, W. H.
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    Continued Research on Combined Fire/Rot Retardant Treatment for Wood Mine Timber. Contract Research. February 1979-September 1980.
    Springborn Labs., Inc., Enfield, CT
    OFR 115-81
    Bureau of Mines, Washington, DC, OFR 115-81
    October 1980
    81 p.

  • Anderberg, Y.; Thelanderson, S.
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    Constitutive Law for Concrete at Transient High Temperature Conditions.
    Lund Institute of Technology, Sweden
    ['CIB W14/79/35 (S)', 'ACI Publication SP 55-8', 'Bulletin 65']
    CIB W14/79/35 (S); ACI Publication SP 55-8; Bulletin 65
    American Concrete Institute. Analytical Design of Fire Exposed Concrete Structures. Douglas McHenry International Symposium. ACI Publication SP-55. Bulletin 65. October 1976, American Concrete Institute, Detroit, MI, Mexico City, Mexico, 187-205 p., ['1976', '1978']

  • Litvin, A.; Rivkind, L. E.
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    Guide for Cast-In-Place Low Density Concrete.
    Title 64-44
    ACI Journal, 529-535, September 1967
    Title 64-44

  • Blaine, R. L.; Arni, H. T.; DeFore, M. R.
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    Interrelations Between Cement and Concrete Properties. Part 3. Compressive Strengths of Portland Cement Test Mortars and Steam-Cured Mortars.
    National Bureau of Standards, Washington, DC
    NBS BSS 008
    NBS BSS 008
    April 1968
    100 p.

  • Blaine, R. L.; Arni, H. T.; DeFore, M. R.
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    Interrelations Between Cement and Concrete Properties. Part 3. Compressive Strengths of Portland Cement Test Mortars and Steam-Cured Mortars. Section 7. Compressive Strength of Test Mortars.
    National Bureau of Standards, Washington, DC
    NBS BSS 008
    NBS BSS 008
    April 1968
    65 p.

  • Blaine, R. L.; Arni, H. T.; DeFore, M. R.
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    Interrelations Between Cement and Concrete Properties. Part 3. Compressive Strengths of Portland Cement Test Mortars and Steam-Cured Mortars. Section 8. Compressive Strength of Steam-Cured Portland Cement Mortars.
    National Bureau of Standards, Washington, DC
    NBS BSS 008
    NBS BSS 008
    April 1968
    32 p.

  • Sullivan, P. J. E.; Sharshar, R.
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    Performance of Concrete at Elevated Temperatures (As Measured by the Reduction in Compressive Strength).
    Sullivan and Associates, Richmansworth, England; Imperial College, London, England
    Fire Technology, Vol. 28, No. 3, 240-250, August 1992

  • Woodside, A.; deRuiter, J. J.; Wade, C. A.
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    Fire Resistance of New Zealand Concretes. Part 1. Study Report.
    Building Research Association of New Zealand, Judgeford
    BRANZ Study Report SR34
    BRANZ Study Report SR34
    February 1991
    70 p.

  • Kolos, R. M.
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    Compressive Strengths of Hydraulic Cements Produced in the United States.
    National Institute of Standards and Technology, Gaithersburg, MD
    Cement, Concrete, and Aggregates, Vol. 14, No. 2, 127-130, Winter 1992

  • Fattal, S. G.; Cattaneo, L. E.
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    Evaluation of Structural Properties of Masonry in Existing Buildings.
    National Bureau of Standards, Washington, DC
    NBS BSS 062
    Veterans Administration, Washington, DC, NBS BSS 062
    March 1977
    127 p.