Experimental and Numerical Study of the Formation of Thermophysical Characteristics of Carbon Composite Materials. Part 2. Numerical Simulation of Operability of a Refractory Product Made of Carbon Composite Material-Reference-Cited by-同舟云学术

Experimental and Numerical Study of the Formation of Thermophysical Characteristics of Carbon Composite Materials. Part 2. Numerical Simulation of Operability of a Refractory Product Made of Carbon Composite Material

Published:2019-11 Issue:4 Volume:60 Page:336-345
ISSN:1083-4877
Container-title:Refractories and Industrial Ceramics
language:en
Short-container-title:Refract Ind Ceram

Author:

Kolesnikov S. A.,Kim L. V.,Dudin V. R.

Publisher

Springer Science and Business Media LLC

Subject

Materials Chemistry,Ceramics and Composites

Link

http://link.springer.com/content/pdf/10.1007/s11148-019-00363-5.pdf

Reference26 articles.

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2. Ch. Pradere, Thermal and thermomechanical characterization of carbon and ceramic fibers at very high temperature, Ecole Natiionale Superiered’Arts et Metiers Centre de Bordeaux (2004), https://pastel.archives-ouvertes.fr/file/index/docid/500111/filename/ThesePradere.pdf.

3. W.-J. Li, H.-M. Huang, Y.-M. Hu, “Thermochemical ablation of carbon/carbon composites with non-linear thermal conductivity,” Thermal Science, 18(5), 1625 – 1629 (2014), http://www.doiserbia.nb.rs/img/doi/0354-9836/2014/0354-98361405625L.pdf.

4. J. Lachaud, Y. Aspa, G. L. Vignoles, and J.-M. Goyheneche, 3D modeling of thermochemical ablation in carbon-based materials: effect of anisotropy on surface roughness onset, http://jeanlachaud.com/research/lachaud-ISMSE2006.pdf.

5. M. Grujicic, C. L. Zhao, E. C. Dusel, et al., “Computational analysis of the thermal conductivity of the carbon–carbon composite materials,” J. Mater. Sci., 41(24), 8244 – 8256 (2006), https://link.springer.com/article/10.1007/s10853-006-1003-x.