FireDOC Search

displaying 281 - 290 results in total 324

  • Wang, Y.; Goransson, U.; Holmstedt, G.; Omrane, A.
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    Model for Prediction of Temperature in Steel Structure Protected by Intumescent Coating, Based on Tests in the Cone Calorimeter.
    Manchester Univ., UK; Lund Univ., Sweden
    Fire Safety Science. Proceedings. Eighth (8th) International Symposium. International Association for Fire Safety Science (IAFSS). September 18-23, 2005, Intl. Assoc. for Fire Safety Science, Boston, MA, Beijing, China, Gottuk, D. T.; Lattimer, B. Y., Editors, 235-246 p., 2005

  • Maljaars, J.; Fellinger, J.; Soetens, F.
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    Fire Exposed Aluminum Structures.
    NIMR, Delft, The Netherlands; TNO Institute for Building Materials and Construction, Delft, The Netherlands; Eindhoven University of Technology, The Netherlands
    Fire Safety (Special Issue), Vol. 50, No. 4, 261-278, 2005

  • Adl-Zarrabi, B.; Bostrom, L.; Wickstrom, U.
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    Using the TPS Method for Determining the Thermal Properties of Concrete and Wood at Elevated Temperature.
    SP Fire Technology, BorĂ¥s, Sweden
    Fire and Materials, Vol. 30, No. 5, 359-369, September/October 2006

  • Bentz, D. P.
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    Combination of Transient Plane Source and Slug Calorimeter Measurements to Estimate the Thermal Properties of Fire Resistive Materials.
    National Institute of Standards and Technology, Gaithersburg, MD
    Journal of Testing and Evaluation, Vol. 3532, No. 3, May 2007

  • Wang, Z. Y.; Han, E. H.; Ke, W.
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    Fire-Resistant Effect of Nanoclay on Intumescent Nanocomposite Coatings.
    Chinese Academy of Sciences, Shenyang 110016, China
    Journal of Applied Polymer Science, Vol. 103, No. 3, 1681-1689, February 2007

  • Bartholmai, M.; Schartel, B.
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    Assessing the Performance of Intumescent Coatings Using Bench-Scaled Cone Calorimeter and Finite Difference Simulations.
    Federal Institute of Material Research and Testing (BAM), Berlin, Germany
    Fire and Materials, Vol. 31, No. 3, 187-205, April/May 2007

  • Grodon, R. L.; Masri, A. R.; Pope, S. B.; Goldin, G. M.
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    Numerical Study of Auto-Ignition in Turbulent Lifted Flames Issuing Into a Vitiated Co-Flow.
    Sydney Univ., Australia
    Combustion Theory and Modelling, Vol. 11, No. 3, 351-376, June 2007

  • Pham, T. K.; Dunn-Rankin, D.; Sirignano, W. A.
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    Flame Structure in Small-Scale Liquid Film Combustors.
    California Univ., Irvine
    Volume 31; Part 2,
    Combustion Institute, Symposium (International) on Combustion, 31st. Proceedings. Volume 31. Part 2. August 5-11, 2006, Combustion Institute, Pittsburgh, PA, Heidelberg, Germany, Barlow, R. S.; Sick, V.; Glarborg, P.; Yetter, R. A., Editors, 3269-3275 p., 2007

  • Takeda, H.
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    Heating Test of Rock-Fiber Insulation.
    LGS, Canada
    Volume 1; Poster Session,
    Interflam 2007. (Interflam '07). International Interflam Conference, 11th Proceedings. Volume 1. September 3-5, 2007, London, England, 753-757 p., 2007

  • Craft, S. T.; Mehaffey, J. R.; Hadjisophocleous, G.; Isgor, B.
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    Predicting the Temperature Rise in Light-Frame Wood Floor Assemblies Exposed to Fire.
    FPInnovations-Forintek Division, Canada; Carleton University, Canada
    Volume 2,
    Interflam 2007. (Interflam '07). International Interflam Conference, 11th Proceedings. Volume 2. September 3-5, 2007, London, England, 967-978 p., 2007