Dense Co32Cr36Ni32-3 wt% TiC medium entropy alloy parts were successfully fabricated via selective laser melting (SLM) and they showed high strength and good ductility. Due to the addition of micro-TiC particles, which was partially dissolved during SLM processing, C diffused into the Co32Cr36Ni32-based melt and led to the formation of nano-sized TiC and Cr23C6-segregations along the grain boundaries of the solidified microstructure. The segregations showed a coherent relationship with the matrix and reinforced it. Owing to their formation, the grain boundary energy was reduced. Thus, the liquid film present between columnar grains during solidification was consumed which eventually manifested in the reduction of the hot crack sensitivity (HCS). The additively manufactured material showed excellent mechanical properties readily characterized by ultimate tensile strength (UTS) of 1340 MPa, yield strength (YS) of 1020 MPa, and elongation (El) of 15.6% at room temperature, respectively.

• 单位
  北京科技大学