Grain refinement and strengthening of 316L stainless steel through addition of TiC nanoparticles and selective laser melting

In this work, strengthening of 316L stainless steel was achieved through addition of 1 and 3 wt% TiC nano particles. The TiC nanoparticles and 316L powders were mixed using low energy ball milling and then processed by selective laser melting. The grains are significantly refined from 16.8 mu m to 6.9 mu m with the addition of 3 wt% TiC nanoparticles. Addition of 1 and 3 wt% TiC nanoparticles remarkably increased yield strength (694 MPa and 773 MPa) and ultimate tensile strength (888 MPa and 988 MPa). Meanwhile, the tensile elongation was kept at a high level (47% and 32%). The strength enhancement primarily results from Orowan strengthening by the nanoparticles, and the reduction of ductility is related to the suppression of twinning induced plasticity.

Automated summary

The strength of 316L stainless steel was significantly increased by the addition of TiC nanoparticles, while maintaining a high level of ductility. The increase in strength was primarily due to Orowan strengthening from the nanoparticles, and the reduction in ductility was related to the suppression of twinning induced plasticity.