Effects of polycarbosilane infiltration processes on the microstructure and mechanical properties of 3D-C-f/SiC composites

Three-dimensional braided carbon fiber-reinforced silicon carbide (3D-C-f/SiC) composites were prepared through eight cycles of infiltration of polycarbosilane(PCS)/divinylbenzene (DVB) and subsequent pyrolysis under an inert atmosphere. The effects of infiltration processes on the microstructure and mechanical properties of the C-f/SiC composites were investigated. The results showed that increasing temperature could reduce the viscosity of the PCS/DVB solution, which was propitious to the infiltration processes. The density and flexural strength of 3D-Cf/SiC composites fabricated with vacuum infiltration were 1.794 g cm(-3) and 557 MPa, respectively. Compared to vacuum infiltration, heating and pressure infiltration could improve the infiltration efficiency so that the composites exhibited higher density and flexural strength, i.e., 1.944 g cm(-3) and 662 MPa. When tested at 1650 degrees C and 1800 degrees C in vacuum, the flexural strength reached 647 MPa and 602 MPa, respectively.) (C) 2006 Elsevier Ltd and Techna Group S.r.l. All rights reserved.