FireDOC Search

displaying 801 - 810 results in total 972

Balabanovich, A. I.; Luda, M. P.; Operti, L.
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GC/MS Identification of Pyrolysis Products from 1,2-Bis(2,4,6-Tribromophenoxy)ethane.

Università di Torino, Italy

Journal of Fire Sciences, Vol. 22, No. 4, 269-292, July 2004
Geith, J.; Holl, G.; Klapotke, T. M.; Weignad, J. J.
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Pyrolysis Experiments and Thermochemistry of Mononitrobiuret (MNB) and 1,5-dinitrobiuret (DNB).

Munich Univ., Germany; Bundeswehr Research Institute for Materials, Swisttal, Germany

Combustion and Flame, Vol. 139, No. 4, 358-366, December 2004
Blazso, M.; Czegeny, Z.; Csoma, C.
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Pyrolysis and Debromination of Flame Retarded Polymers of Electronic Scrap Studied by Analytical Pyrolysis.

Hungarian Academy of Sciences, Budapest, Hungary

Journal of Analtyical and Applied Pyrolysis, Vol. 64, No. 2, 249-261, 2002
Burnette, G E., Jr.
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Daubert Revisited: Magnetek and the Death of Pyrolysis.

Fire and Arson Investigator, Vol. 55, No. 1, 47-49, July 2004
Himoto, K.; Tanaka, T.
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Burning Model for Charring Materials and Its Application to the Compartment Fire Development.

Kyoto Univ., Japan

Fire Science and Technology (International Journal for Fire Science and Technology), Vol. 23, No. 3, 170-190, 2004
VanHees, P.; Axelsson, J.
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Using the Cone Calorimeter to Predict Performances in the SBI and Other Fire Tests, and to Aid Product Development and Quality Control.

SP Swedish National Testing and Research Institute, Boras, Sweden

Flame Retardants 2004. (Flame Retardants '04). 11th Conference Proceedings. British Plastics Federation and Interscience Communications in collaboration with the Association of Plastics Manufacturers, European Flame Retardant Association and the Fire Retardant Chemicals Association. January 27-28, 2004, Interscience Communications Ltd., London, England, London, England, 209-219 p., 2004
Jia, F.; Galea, E. R.; Patel, M. K.
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Numerical Simulation of Fire Spread Within a Compartment Using an Integrated Gas and Solid Phase Combustion Model.

Chapter 7

Chapter 7

Computer Applications in Fire Protection Engineering. Volume 3. Chapter 7. Applied Fire Science in Transition Series, Baywood Publishing Co. Inc., Amityville, NY, DeCicco, P. R., Editors, 101-126 p., 2002
Zhao, L.; Dembsey, N. A.
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Uncertainty Effects on Measurement of Fire Characteristics of Material Systems.

Worcester Polytechnic Inst., MA

Fire and Materials 2005. 9th International Conference. Conference Papers. Proceedings. Organised by Interscience Communications Limited. January 31-February 1, 2005, Interscience Communications Limited, London, England, San Francisco, CA, 37-49 p., 2005
Naydenova, I.; Nullmeier, M.; Warnatz, J.; Vlasov, P. A.
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Detailed Kinetic Modeling of Soot Formation During Shock-Tube Pyrolysis of C6H6: Direct Comparison With the Results of Time-Resolved Laser-Induced Incandescence (LII) and CW-Laser Extinction Measurements.

Heidelberg Univ., Germany; Russian Academy of Sciences, Moscow, Russia

Combustion Science and Technology, Vol. 176, No. 11, 1667-1703, November 2004
Weng, W. G.; Hasemi, Y.
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Model for Ceiling Flame Spread.

Waseda Univ., Japan; University of Science and Technology of China

Fire Science and Technology (International Journal for Fire Science and Technology), Vol. 24, No. 1, 1-15, 2005