FireDOC Search

displaying 1841 - 1850 results in total 2977

  • Liu, K.; Xu, G.; Voyer, R.
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    Durability and Cold Temperature Performance of SBS-Modified Bituminous Roofing Membranes.
    National Research Council of Canada, Ottawa, Ontario
    NRCC-47025
    NRCC-47025
    Roofing Research and Standards Development, Fifth Symposium. Volume 5. Proceedings. ASTM STP 1451. December 7, 2003, Tampa, FL, Rossiter, W. J.; Wallace, T. J., Editors, 97-118 p., 2003

  • Harada, K.; Ohmiya, Y.; Natori, A.; Nakamichi, A.
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    Technical Basis on Structural Fire Resistance Design in Building Standards Law of Japan.
    Kyoto University, Yoshida-Honmachi, Sakyo-ku, Kyoto 606-8501, Japan; Tokyo University of Science, Yamasaki 2641, Noda 278-8510, Japan; Non-Life Insurance Rating Organization of Japan, Tokyo 101-0054, Japan; 4 General Building Research Corporation of Japan, Osaka 540-0024, Japan
    Fire and Materials, Vol. 28, No. 2/4, 323-341, March/August 2004

  • Barnett, C. R.; Clifton, G. C.
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    Examples of Fire Engineering Design for Steel Members, Using a Standard Curve Versus a New Parametric Curve.
    Macdonald Barnett Partners Ltd, Consulting Engineers, Auckland, New Zealand; HERA, Auckland, New Zealand
    Fire and Materials, Vol. 28, No. 2/4, 309-322, March/August 2004

  • Liew, J. Y. R.; Ma, K. Y.
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    Advanced Analysis of 3D steel Framework Exposed to Compartment Fire.
    National University of Singapore, Singapore
    Fire and Materials, Vol. 28, No. 2/4, 253-267, March/August 2004

  • Outinen, J.; Makelainen, P.
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    Mechanical Properties of Structural Steel at Elevated Temperatures and After Cooling Down.
    Constructional Steelwork Association FCSA, Finland; Helsinki University of Technology, Espoo, Finland
    Fire and Materials, Vol. 28, No. 2/4, 237-251, March/August 2004

  • Kang, S. W.; Hong, S. G.
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    Analytical Method for the Behavior of a Reinforced ConcreteFlexural Member at Elevated Temperatures.
    Daewoo E&C, Suwon, South Korea; Seoul National University, South Korea
    Fire and Materials, Vol. 28, No. 2/4, 227-235, March/August 2004

  • Jong, F.; Clancy, P.
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    Compression Properties of Wood as Functions of Moisture, Stress and Temperature.
    Victoria University of Technology, Melbourne City, Australia
    Fire and Materials, Vol. 28, No. 2/4, 209-225, March/August 2004

  • Huang, Z.; Burgess, I.; Plank, R.; Bailey, C.
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    Comparison of BRE Simple Design Method for Composite Floor Slabs in Fire With Non-Linear FE Modelling.
    Sheffield Univ., UK; Building Research Establishment, Watford, England
    Fire and Materials, Vol. 28, No. 2/4, 127-138, March/August 2004

  • Spyrou, S.; Davison, B.; Burgess, I.; Plank, R.
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    Experimental and Analytical Studies of Steel Joint Components at Elevated Temperatures.
    Sheffield Univ., UK
    Fire and Materials, Vol. 28, No. 2/4, 83-94, March/August 2004

  • Franssen, J. M.
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    Numerical Determination of 3D Temperature Fields in Steel Joints.
    Universite de Liège, Belgium
    Fire and Materials, Vol. 28, No. 2/4, 63-82, March/August 2004