Effects of sintering temperature on the microstructure and mechanical properties of Ni-based alloy.

Ni-based alloys were prepared at different sintering temperatures in this study. The effects of sintering temperature on the volume fraction, morphology, and distribution of precipitates in Ni-based alloys, and its impact on mechanical properties were studied. The results show that the microstructure contains γ-Ni, Ni 3 Si, M 7 (B, C) 3 , M 23 (B, C) 6 , and a Si-rich multi element phase. The morphology of M 7 (B, C) 3 particles undergoes an evolution of small particles → mainly strip shape → mainly small block shape and nearly spherical shape, accompanying with the dissolution-reprecipitation process of M 7 (B, C) 3 particles caused by the diffusion of Cr element with the increasing of sintering temperature. Meanwhile, the M 23 (B, C) 6 particle is keeping aggregating and growing. The relative density, microhardness, and bending strength of Ni-based alloys also increase. Especially these properties are found to be increase quickly between 1025 °C and 1050 °C. The increase in microhardness and bending strength is attributed to the reduction in the number of residual sintering pores and the increase in the volume fraction and size of precipitates. In addition, the transition of fracture morphology from intergranular fracture mode to a combination of intergranular and partially transgranular fracture mode also contributes to the rise in bending strength. • γ-Ni, Ni 3 Si, M 7 (B,C) 3 , M 23 (B,C) 6 , and a Si-rich multi element phase. • Morphology of M 7 (B,C) 3 particles relates to dissolution-reprecipitation process. • Mechanical properties with residual sintering pores and boron carbide. [ABSTRACT FROM AUTHOR]