Wear Resistance of Ti/TiB Composites Produced by Spark Plasma Sintering

The tribological characteristics of Ti/TiB composites were studied in as-sintered condition and after isothermal multiaxial forging. A mixture of commercially pure Ti and TiB2 powders was used to produce Ti/TiB composites with 8.5 and 17 vol % of TiB via in-situ Ti + TiB2 -> Ti + TiB reactions during spark plasma sintering at 1000 degrees C. During isothermal multiaxial forging (MAF), the material was exposed to successive compressions along three orthogonal directions at a temperature of 700 degrees C and strain rate of 10(-3) s(-1) to cumulative strains e = 5.2. The microstructure of the assintered composites consisted of TiB whiskers nonuniformly distributed within the Ti matrix. In the forged composites, intensive shortening of TiB whiskers occurred. The hardness of the composites increased greatly compared to that of commercially pure Ti; the hardness also increased with increasing the TiB fraction. The hardness in the forged composites decreased by similar to 20% for both composite states. Tribological tests using a standard ball-on-disk geometry showed that the friction coefficient of the Ti/TiB composites increased in comparison with Ti. Increasing the TiB fraction in the composites increased the friction coefficient and decreased the wear factor. It was shown that the tribological characteristics after isothermal multiaxial forging were changed but slightly.