Effect of preform and carbon matrix on bending strength of Cf/Cu/C composites

Aiming to obtain composites with appropriate mechanical properties for pantograph sliders, copper mesh modified carbon/carbon (C-f/Cu/C) composites were prepared by chemical vapor infiltration (CVI) in C3H6 + N-2 atmosphere and impregnation-carbonization (I-C) with furan resin. In this paper, C-f/Cu/C composites with two kinds of preforms and carbon matrixes were obtained. The effect of preforms and carbon matrixes on bending strength was investigated. The results indicated that the bending strength of carbon fiber/copper mesh reinforced pyrolytic carbon matrix composites was about 181.39-195.43 MPa, while that reinforced resin carbon matrix composites had the worst bending strength around 54.45-57.04 MPa, in terms of the same preform. The bending strength of C-f/Cu/C composites in the parallel orientation and vertical orientation were also similar. As for C-f/Cu/C composites with the same carbon matrix, the bending strength of C-f/Cu/C composites with non-woven fiber/fiber web/copper mesh type preform was higher than that with fiber web/copper mesh type preform. However, the bending strength of carbon fiber/copper mesh reinforced resin carbon matrix composites showed the opposite trend, and its reasons were analyzed and discussed taking advantage of the fracture mechanisms.