Development of Microstructure Refinement Strategies in Carburized Steel
Development of Microstructure Refinement Strategies in Carburized Steel
Tuesday, October 15, 2019
The fatigue behavior of carburized steels improves with refinement of prior austenite grains during heat treatment. This improvement may be related to intergranular crack nucleation or refinement of the martensite-retained austenite microstructure in the case of carburized steels. Microstructural refinement strategies are being evaluated in this study. Commercial 52100 steel is used to simulate the high carbon contents in the case. Specimens are being subjected to various thermal treatments in a TA instruments Type805L quenching dilatometer. Reheating cycles to austenitization temperatures are evaluated with respect to both prior austenite grain size and associated martensite and retained austenite refinement. Additionally, a novel thermal processing technique, step-quenching, is also being evaluated. The heat treatment process consists of two athermal martensite transformation steps separated by isothermal holding at a temperature below the MS temperature. Dilatometry curves show a drop in the MS temperature following the primary martensite transformation step, indicating austenite stabilization during isothermal holding. There is evidence that both chemical and mechanical stabilization of austenite may be responsible for depressing the Ms temperature. The microstructure refinement associated with step quenching is compared to the microstructure generated from a conventional quenching process.
See more of: Fluxtrol Student Research Competition
See more of: Fluxtrol Student Research Competition*
See more of: Fluxtrol Student Research Competition*