FireDOC Search

displaying 411 - 420 results in total 503

  • Nilsson, M.; Oden, M.; Jeansson, S.
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    Methodology for Risk Based Fire Resistance Design of Structural Members.
    Fire Safety Design AB, SE-200 22 Malmö Sweden
    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, 325-336 p., 2008

  • Hofmeister, C. E.; Izbicki, T.
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    Middle Ground Approach to Structural Fire Resistance Analysis.
    Rolf Jensen and Associates, Inc., Raleigh, NC; Rolf Jensen and Associates, Inc., Addison, TX
    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, 373-383 p., 2008

  • Mayberry, P.; Franken, J.
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    Concerns Raised About PU Foam/Fire-Resistant Chemicals.
    INDA Director of Government Affairs
    Nonwovens Industry, Vol. 38, No. 6, 22-24, June 2007

  • Jayakody, C.; Myers, D.; Ogburn, C.
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    Fire-Resistant Flexible Foams for High-Risk Cushioning Applications.
    Chestnut Ridge Foam Inc., Latrobe, PA
    Chapter 23
    Chapter 23
    Materials and Concepts for Hazard Prevention. Fire and Polymers IV. ACS Symposium Series No. 922. Chapter 23. Proceedings. 2005, Wilkie, C. A.; Nelson, G. L., Editors, 291-304 p., 2005

  • Chuang, Y. J.; Wu, W. T.; Chen, H. Y.; Tang, C. H.; Lin, C. Y.
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    Experimental Investigation of Fire Wall Insulation During a Standard Furnace Fire Test with Different Initial Ambient Air Temperatures.
    National Taiwan University of Science and Technology
    Journal of Applied Fire Science, Vol. 15, No. 1, 41-55, 2006-2007

  • Suzuki, J.
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    Structural Redundancy and Effect of Seismic Design on Ultimate Temperature of Steel Frames Exposed to Fire. Chapter 1: Preface..
    Tokyo University of Science, Japan
    Fire Science and Technology, Vol. 26, No. 3, 93-112, 2007

  • Suzuki, J.
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    Structural Redundancy and Effect of Seismic Design on Ultimate Temperature of Steel Frames Exposed to Fire. Chapter 2: Stress Redistribution Mechanisms and High-Temperature Instability in Frames.
    Tokyo University of Science, Japan
    Fire Science and Technology, Vol. 26, No. 3, 113-144, 2007

  • Suzuki, J.
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    Structural Redundancy and Effect of Seismic Design on Ultimate Temperature of Steel Frames Exposed to Fire. Chapter 3: Theoretical Collapse Temperature of Frameworks.
    Tokyo University of Science, Japan
    Fire Science and Technology, Vol. 26, No. 3, 145-176, 2007

  • Suzuki, J.
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    Structural Redundancy and Effect of Seismic Design on Ultimate Temperature of Steel Frames Exposed to Fire. Chapter 4: Collapse Temperature of Frameworks With Seismic Design.
    Tokyo University of Science, Japan
    Fire Science and Technology, Vol. 26, No. 3, 177-258, 2007

  • Suzuki, J.
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    Structural Redundancy and Effect of Seismic Design on Ultimate Temperature of Steel Frames Exposed to Fire. Chapter 5: Behavior and Collapse Temperatures of Existing Frames During Fire Disasters.
    Tokyo University of Science, Japan
    Fire Science and Technology, Vol. 26, No. 3, 259-282, 2007