Steel makers find nickel-free alternative that matches performance
Researchers have developed a new iron-based alloy mix that replaces nickel in industrial steel production while delivering equivalent strength and hardness. The discovery could reduce manufacturing costs and supply-chain risk for automakers and tool producers who depend on nickel imports.
Originaltitel: Optimized Fe-Mn-Cr-Si-C master alloy for enhanced hardenability in liquid phase sintered PM steels: A nickel-free approach
<p>This study explores the use of Fe-Mn-Cr-Si-C master alloy as a sustainable alternative to nickel in press and sinter powder metallurgy, with the goal to improve hardenability and mechanical performance. Two master alloy compositions were optimized for liquid phase sintering using thermodynamic software and then produced through gas atomization. The melting behavior of the master alloys was characterized and compared with thermodynamic predictions. Sintering experiments were performed on compacts from mixes with and without master alloy additions. Continuous cooling transformation (CCT) diagrams were generated to assess hardenability. The results demonstrated that the master alloys improve the hardenability, even at lower cooling rates compared to alloying with Ni. Mechanical testing showed notable improvements in yield strength and apparent hardness comparable to those achieved with Ni additions. These findings support the use of Fe-Mn-Cr-Si-C master alloy as a viable, more sustainable alternative to nickel in powder metallurgy steels.</p>