FireDOC Search

displaying 61 - 70 results in total 71

  • Wakamatsu, T.; Mizuno, K.; Tanaka, T.
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    Three-Deminesional Heat Flow Analysis Model of Steel Structural Members Upon Fire Exposure: Prediction of Temperature Properties of Exterior Steel Structural Members Exposed to Fire.
    Tokyo University of Science, Japan; Ochanomizu Univ., Japan
    Fire Science and Technology (International Journal for Fire Science and Technology), Vol. 23, No. 5, 338-400, 2004

  • Mizuno, M.; Harada, K.; Wakamatsu, T.
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    Analysis on Target Safety Level for Egress From a Fire Room and a Fire Floor in Typical Office Buildings.
    Tokyo University of Science, Japan; Kyoto Univ., Japan
    Fire Science and Technology (International Journal for Fire Science and Technology), Vol. 23, No. 5, 402-462, 2004

  • Tokunaga, T.; Amano, K.; Oiwa, D.; Uchiyama, S.; Mizuno, M.; Ohmiya, Y.; Wakamatsu, T.; Tsujimoto, M.
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    Experimentsl Study on the Smoke Behavior and Ensuring the Safety of Staircases in a Station Building During a Fire: Air Current Control in an Underground Station by a Passive Safety System.
    Tokyo University of Science, Japan; SANKI Engineering Co. Ltd., Japan
    Fire Science and Technology, Vol. 26, No. 1, 9-42, 2007

  • Natori, A.; Harada, K.; Wakamatsu, T.
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    Analysis of Target Safety Level Implied in Fire Resistance Design Method for Localized Fires in Building Standards Law of Japan.
    Non-Life Insurance Rating Organization of Japan, Tokyo; Kyoto Univ., Japan; Tokyo University of Science, Chiba, Japan
    Performance-Based Codes and Fire Safety Design Methods, 7th International Conference. Sky is the Limit. Proceedings and Case Studies. April 16-18, 2008, Society of Fire Protection Engineers, Bethesda, MD, Auckland, New Zealand, 277-288 p., 2008

  • Mizuno, K.; Wakamatsu, T.; Tanaka,T.
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    Prediction of Temperature Properties of Exterior Steel Structural Members Exposed to Fire: Outline of a Three-Dimensional Heat Flow Analysis Model.
    Fire Science and Technology, Vol. 26, No. 4 (Special Issue), 297-302, 2007

  • Okinaga, S.; Wakamatsu, T.; Mizuno, M.; Wakamatsu, T.
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    Heating Mechanism of Double Tubular Steel Columns. Part 1: Verification Using the Real-Scale Experiment.
    Tokyo University of Science, Japan; Nibon Fire Safety Design Consultancy and Research Institute, Japan
    Fire Science and Technology, Vol. 26, No. 4 (Special Issue), 315-319, 2007

  • Wakamatsu, T.; Okinaga, S.; Mizuno, M.; Wakamatsu, T.
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    Heating Mechanism of Double Tubular Steel Columns. Part 2: Numerical Analysis and Comparison With the Experimental Results.
    Nihon Fire Safety Design Consultancy and Research Institute, Japan; Tokyo University of Science, Japan
    Fire Science and Technology, Vol. 26, No. 4 (Special Issue), 321-326, 2007

  • Suzuki, J.; Suzuki, H.; Wakamatsu, T.; Ohmiya, Y.; Terakawa, T.
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    Ultimate Temperature of Steel Frames Exposed to Fire. Part 1: Stress Redistribution and Ultimate Temperature of Steel Frames.
    Tokyo University of Science, Japan; Tsukuba Univ., Japan
    Fire Science and Technology, Vol. 26, No. 4 (Special Issue), 333-338, 2007

  • Suzuki, H.; Suzuki, J.; Wakamatsu, T.; Ohmiya, Y.; Terakawa, T.
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    Ultimate Temperature of Steel Frames Exposed to Fire. Part 2: Stress Redistribution and Limit of Deformation of Steel Frames.
    Tsukuba Univ., Japan; Tokyo University of Science, Japan
    Fire Science and Technology, Vol. 26, No. 4 (Special Issue), 339-344, 2007

  • Terakawa, T.; Suzjik, J.; Suzuki, H.; Wakamatsu, T.; Ohmiya, Y.
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    Ultimate Temperature of Steel Frames Exposed to Fire. Part 3: Influence of Local Buckling on the Ultimate Temperature of Steel Frames.
    Tokyo University of Science, Japan; Tsukuba Univ., Japan
    Fire Science and Technology, Vol. 26, No. 4 (Special Issue), 345-350, 2007