Grain refinement of a nickel and manganese free austenitic stainless steel produced by pressurized solution nitriding

Abstract

Prolonged exposure at high temperatures during solution nitriding induces grain coarsening which deteriorates the mechanical properties of high nitrogen austenitic stainless steels. In this study, grain refinement of nickel and manganese free Fe–22.75Cr–2.42Mo–1.17N high nitrogen austenitic stainless steel plates was investigated via a two-stage heat treatment procedure. Initially, the coarse-grained austenitic stainless steel samples were subjected to an isothermal heating at 700°C to be decomposed into the ferrite+Cr2N eutectoid structure and then re-austenitized at 1200°C followed by water quenching. Microstructure and hardness of samples were characterized using X-ray diffraction, optical and scanning electron microscopy, and micro-hardness testing. The results showed that the as-solution-nitrided steel decomposes non-uniformly to the colonies of ferrite and Cr2N nitrides with strip like morphology after isothermal heat treatment at 700°C. Additionally, the complete dissolution of the Cr2N precipitates located in the sample edges during re-austenitizing requires longer times than 1h. In order to avoid this problem an intermediate nitrogen homogenizing heat treatment cycle at 1200°C for 10h was applied before grain refinement process. As a result, the initial austenite was uniformly decomposed during the first stage, and a fine grained austenitic structure with average grain size of about 20μm was successfully obtained by re-austenitizing for 10min.