NUMERICAL STUDY OF THE THERMAL RESPONSE OF HIGH-TEMPERATURE ABLATIVE MATERIALS
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[1] M. R. Tant,et al. A Model for the Thermal Response of Polymer Composite Materials with Experimental Verification , 1985 .
[2] S. Patankar. Numerical Heat Transfer and Fluid Flow , 2018, Lecture Notes in Mechanical Engineering.
[3] D. H. Malan,et al. The combustion of wood. Part I , 1946, Mathematical Proceedings of the Cambridge Philosophical Society.
[4] T. Więcek,et al. A numerical study of the thermally-induced response of decomposing, expanding polymer composites , 1988 .
[5] Hsiang-Cheng Kung,et al. A mathematical model of wood pyrolysis , 1972 .
[6] D. R. Poirier,et al. Conservation of mass and momentum for the flow of interdendritic liquid during solidification , 1990 .
[7] J. B. Henderson,et al. A Mathematical Model to Predict the Thermal Response of Decomposing, Expanding Polymer Composites , 1987 .
[8] Edward J. Kansa,et al. Mathematical model of wood pyrolysis including internal forced convection , 1977 .
[9] J. Ni,et al. A volume-averaged two-phase model for transport phenomena during solidification , 1991 .
[10] F. L. Test,et al. A study of the effects of the assumption of local-thermal equilibrium on the overall thermally-induced response of a decomposing, glass-filled polymer composite , 1991 .
[11] D. Schmidt. Ablative Polymers in Aerospace Technology , 1969 .
[12] C. B. Moyer,et al. An analysis of the coupled chemically reacting boundary layer and charring ablator, part 1 Summary report , 1968 .
[13] William G. Gray,et al. General conservation equations for multi-phase systems: 1. Averaging procedure , 1979 .