Reaction diffusion in continuous SiC fiber reinforced Ti matrix composite
(State Key Laboratory of Solidification Processing, School of Materials Science and Engineering,
Northwestern Polytechnical University, Xi’an 710072, China)
Northwestern Polytechnical University, Xi’an 710072, China)
Abstract: SiC continuous fiber-reinforced pure Ti(TA1) matrix composites were fabricated by a vacuum hot pressing(VHP) method and then heat-treated in vacuum under different conditions. The interfacial reaction and the formation of interfacial phases were studied by using SEM, EDS and XRD. The results show that there exists reaction diffusion at the interface of SiC fibers and Ti matrix, and the concentration fluctuation of reaction elements such as C, Ti and Si appears in interfacial reaction layer. The interfacial reaction products are identified as Ti3SiC2, TiCx and Ti5Si3Cx. At the beginning of interfacial reaction, the interfacial reaction products are TiCx and Ti5Si3Cx. Along with the interfacial reaction diffusion, Ti3SiC2 and Ti5Si3Cx single-phase zones come forth in turn adjacent to SiC fibers, and the TiC+Ti5Si3Cx double-phase zone appears adjacent to Ti matrix, which forms discontinuous concentric rings by turns around the fibers. The formed interfacial phases are to be Ti3SiC2, Ti5Si3Cx and TiCx+Ti5Si3Cx from SiC fiber to Ti matrix. The interfacial reaction layer growth is controlled by diffusion and follows a role of parabolic rate, and the activation energy (Qk) and (k0) of SiC/TA1 are 252.163 kJ/mol and 7.34×10−3 m/s1/2, respectively
Key words: SiC/TA1composite; reaction diffusion; interfacial phases; activation energy