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Combustion Science and Technology Volume 88, 1993 - Issue 5-6
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Original Articles

Material Pyrolysis Properties, Part I: An Integral Model for One-Dimensional Transient Pyrolysis of Charring and Non-Charring Materials

Y. Chen Factory Mutual research corporation P.O. Box 9102, Norwood, Ma, 02062
,
M.A. Delichatsios Factory Mutual research corporation P.O. Box 9102, Norwood, Ma, 02062
&
V. Motvalli Factory Mutual research corporation P.O. Box 9102, Norwood, Ma, 02062
Pages 309-328 | Received 10 Jul 1991, Accepted 20 Apr 1992, Published online: 06 Apr 2007

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Antonio Galgano & Colomba Di Blasi*. (2005) INFINITE- VERSUS FINITE-RATE KINETICS IN SIMPLIFIED MODELS OF WOOD PYROLYSIS. Combustion Science and Technology 177:2, pages 279-303.
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M. I. NELSON, J. BRINDLEY & A. C. MCINTOSH. (2002) Ignition Properties of Thermally Thin Plastics: The Effectiveness of Non-Competitive Char Formation in Reducing Flammability. Journal of Applied Mathematics and Decision Sciences 6:3, pages 155-181.
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YOUNGMIN SOHN, SEUNG WOOK BAEK & TAKASHI KASHIWAGl. (1999) Transient Modeling of Thermal Degradation in Non-Charring Solids. Combustion Science and Technology 145:1-6, pages 83-108.
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C. H. LEUNG, J. E. J. STAGGS, J. BRINDLEY & A.C. McINTOSH. (1997) Modelling of Polymer Ablation Including A Substrate Base. Combustion Science and Technology 126:1-6, pages 53-70.
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C. H. LEUNG, J. E. J. STAGGS, J. BRINDLEY & A. C. McINTOSH. (1996) Modelling of a One Dimensional Ablation Process with Char Formation. Combustion Science and Technology 119:1-6, pages 301-329.
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Y. CHEN, V. MOTEVALLI & M. A. DELICHATSIOS. (1995) Material Pyrolysis Properties, Part II: Methodology for the Derivation of Pyrolysis Properties for Charring Materials. Combustion Science and Technology 104:4-6, pages 401-425.
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M. I. NELSON, J. BRINDLEY & A. McINTOSH. (1995) A Mathematical Model of Ignition in the Cone Calorimeter. Combustion Science and Technology 104:1-3, pages 33-54.
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