Microstructure of interfacial reaction zone in SCS-6 SiC fibre reinforced super α2 composites

Abstract

The microstructure of the interfacial reaction zone in SCS-6 SiC/super α2 composites heat treated at 700°C for 3000 h was investigated by means of analytical transmission electron microscopy. The very fine grained reaction layer adjacent to the carbon coating of the SiC fibre was found to consist of two sub layers, determined to be (Ti, V)C and (Ti, V,Nb)5Si3. The second layer is (Ti,Nb)C with large equiaxed grainsfollowed by the third layer consisting of the (Ti,Nb)3(Al,Si)C phase. This layer is separated from the matrix by a fourth layer with the phase composition (Ti,Nb)5(Si,Al)3. At some interface positions, the two layers of(Ti,Nb)C and (Ti,Nb)3(Al,Si)C are separated by an additional layer of the (Ti,Nb)3(Si,Al) phase. The thickening of the interfacial reaction zone at 700°C is mainly due to the layers of (Ti, Nb)3(Al,Si)C and (Ti,Nb)3(Si,Al). The growth of these two layers is probably responsible for the degradation of the mechanical properties of the composites.