论文信息 - Friction behaviors of carbon/carbon composites with different pyrolytic carbon textures

Friction behaviors of carbon/carbon composites with different pyrolytic carbon textures

Friction and wear properties of carbon/carbon (C/C) composites with a smooth laminar (SL), a medium textured rough laminar (RL) and a high textured RL pyrolytic carbon texture were investigated with a home-made laboratory scale dynamometer to simulate airplane normal landing (NL), over landing (OL) and rejected take-off (RTO) conditions. The morphology of worn surfaces at different braking levels was observed with scanning electron microscopy. The results show that C/C composites with RL have nearly constant friction coefficients, stable friction curves and proper wear loss at different braking levels, while friction coefficients of C/C composites with SL pyrolytic carbon decrease intensely and their oxidation losses increase greatly under OL and RTO conditions. Therefore, C/C composites with a high and medium textured RL pyrolytic carbon may satisfy the requirements of aircraft brakes. The good friction and wear properties of C/C composites with RL are due to the properties of RL, which leads to a uniform friction film forming on the friction surface.

[1] Jai-Young Lee,et al. Structures of pyrolytic carbon matrices in carbon/carbon composites , 1988 .

[2] F. A. Fortunato,et al. Microstructure of worn pitch/resin /CVI C-C composites , 1991 .

[3] G. Vignoles,et al. Pyrocarbon anisotropy as measured by electron diffraction and polarized light , 2000 .

[4] B. Yen. Influence of water vapor and oxygen on the tribology of carbon materials with sp2 valence configuration , 1996 .

[5] J. Sheehan,et al. Carbon-Carbon Composites , 1994 .

[6] P. J. Bryant,et al. A study of mechanisms of graphite friction and wear , 1964 .

[7] K. J. Hüttinger,et al. On the terminology for pyrolytic carbon , 2002 .

[8] R. Menéndez,et al. Pitch-based carbon composites with granular reinforcements for frictional applications , 2000 .

[9] D. Teer,et al. Surface Orientation and Friction of Graphite, Graphitic Carbon and Non-Graphitic Carbon , 1961, Nature.

[10] E. Fitzer. The future of carbon-carbon composites , 1987 .

[11] B. Yen. Roles of oxygen in lubrication and wear of graphite in ″dusting″ and ambient conditions , 1995 .

[12] C. Ju,et al. Low energy tribological behavior of carbon-carbon composites , 1995 .