[1] HE-JUN LI. Carbon/Carbon composites. New Carbon Materials, 79-80(2001).
[2] G SAVAGE. Carbon-carbon composites. Chapman and Hall, 198-209(1993).
[4] T WINDHORST, G BLOUNT. Carbon-carbon composites: a summary of recent developments and applications. Materials & Design, 18, 11-15(1997).
[5] E SHEEHAN J, W BUESKING K, J SULLIVAN B. Carbon-carbon composites. Annual Review of Materials Science., 24, 19-44(1994).
[6] W OHLHORST C, E GLASS D, E BRUCH W et al. Development of X-43A Mach 10 Leading Edges. The 56th International Astronautical Congress. Fukuoka,. Japan(2005).
[7] QIAN LU, GUI-QING JIANG, XIAO-GUANG LUO et al. Lightweight and non-ablation new TPS for X-37B aerospace vehicle. Morden Defence Technology, 40, 16-20(2012).
[8] V DE PAUW, B REZNIK, S KALHÖFER et al. Texture and nanostructure of pyrocarbon layers deposited on planar substrates in a hot-wall reactor. Carbon, 41, 71-77(2003).
[9] G ZHANG W, J HUTTINGER K. Densification of a 2D carbon fiber preform by isothermal, isobaric CVI: kinetics and carbon microstructure. Carbon, 41, 2325-2337(2003).
[10] J REN J, Z LI K, Y ZHANG S et al. Preparation of carbon/carbon composite by pyrolysis of ethanol and methane. Materials & Design, 65, 174-178(2015).
[11] E FITZER. The future of carbon-carbon composites. Carbon, 25, 163-190(1987).
[12] Y TANABE, T YOSHIMURA, T WATANABE et al. Fatigue of C/C composites in bending and in shear modes. Carbon, 42, 1665-1670(2004).
[13] HAI-HAO ZHOU, KE-ZHI LI, HE-JUN LI et al. Effect of cycles on flexural fatigue strength for 2D C/C composites. Acta Materiae Compositae Sinica, 28, 100-104(2011).
[14] XIAO-LING LIAO, HE-JUN LI, KE-ZHI LI. Effect of stress level on bending fatigue damage mode of 3D C/C composites. Science China Technological Sciences, 37, 53-59(2007).