13th International Conference on Fracture June 16–21, 2013, Beijing, China -8- [4] Z.P. Li. Major advancement and development trends of TPS composites. Fuhe Cailiao Xuebao/Acta Materiae Compositae Sinica. 28(2011) 1-9. [5] Y. Aspa, M. Quintard, F. Plazanet, C. Descamps and G. L. Vignoles. Ablation of Carbon/Carbon Composites: Direct Numerical Simulation and Effective Behavior. Ceramic Engineering and Science Proceeding. 26(2005) 99-106. [6] J. Lachaud, G. L. Vignoles, J. M. Goyheneche and J. F. Epherre. Ablation in Carbon/Carbon Composites: Microscopic Observations and 3D Numerical Simulation of Surface Roughness Evolution. Ceramic Transactions. 191(2006) 149-160. [7] G. L. Vignoles, J. Lachaud, Y. Aspa and M. Quintard. Effective Surface Recession Laws for the Physico-Chemical Ablation of C/C Composite Materials. Ceramic Engineering and Science Proceedings. 32(2010) 351-360. [8] P. Laborde, B. Toson and M. Odunlami. High Temperature Damage Model for Carbon–Carbon Composites. European Journal of Mechanics - A/Solids. 30(2011) 256-268. [9] S. Farhan, K. Li, L. Guo, Q. Gao and F. Lan. Effect of Density and Fibre Orientation On the Ablation Behaviour of Carbon-Carbon Composites. New Carbon Materials. 25(2010) 161-167.
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