A novel preparation approach for improving the mechanical and wet tribological properties of carbon fabric/phenolic composites

Abstract

In order to overcome the poor interfacial bond between carbon fabric and phenolic matrix, carbon fiber powders (CFPs) were obtained by dry ball-milling technique and then the carbon fabric/phenolic composites filled with 0wt% (C0), 1wt% (C1) and 2wt% (C2). CFPs were fabricated by successive filtration method and hot-press technique. Their mechanical and wet tribological properties were investigated based on the characteristics of surface morphology, three-dimensional surface profiles, skeletal density, pore structure and compressibility. Results show that the incorporation of CFPs obviously improves the interfacial bond and further increases the mechanical properties. Meanwhile, the introduction of CFPs increases the friction coefficient and improves the wear resistance. Notably, C1 exhibits the biggest friction coefficient, the smallest wear rate and the biggest flexural, shear and tensile strengths. Besides, SEM observation of worn surfaces suggests that the matrix crack and fiber breakage induced by fiber bending are the main wear mechanisms for C0 and fiber breakage induced by wear debris is the chief wear mechanism for C1 and C2.