Precipitation analysis in bearing steel Hybrid 60

Sammanfattning: New materials are always being developed to get the best properties possible where needed. The way to create these materials and test them is also developing. When it comes to high-strength steels, a martensitic microstructure is a common choice. Martensite is a diffusionless phase transformation that generates the brittle martensitic microstructure. Tempering is a process where the brittle martensite is heat treated to make it more ductile and tough while simultaneously precipitating secondary phase particles that could help to strengthen the material. This study focuses on a novel dual-hardening martensitic steel that combines two different precipitates: carbides and intermetallics. The investigations are performed using simulations with the Thermo-Calc module TC-PRISMA to analyse the precipitation. The precipitation modelling is also compared to experimental data from the literature to evaluate the accuracy of the modelling. Out of the six alloys in this study, five were supposed to have NiAl precipitates. What was found was that two alloys, Alloy B and Alloy E, had NiAl precipitates that showed in PRISMA. In the three alloys that did not show NiAl precipitates, two of them did not have the phase stable at respective ageing temperatures. In the last alloy, that only had carbides, both of the precipitates showed up in PRISMA. More work needs to be done on co-precipitation, with comparison between simulations and experiments to confirm that the databases are reliable enough to be used to develop the materials of the future.