High-speed Tensile Deformation Behavior of 1 GPa-grade TRIP-aided Multi-phase Steels

Abstract

High-speed deformation behavior and their strain rate dependence on mechanical properties of 1 GPa-grade TRIP-aided multi-phase (TRIP) steels were studied. The strain rate range in this study was between 3.3×10^–6 and 10³ s^–1, and the effect of retained austenite (γ_R) shapes on TRIP effect in the 1 GPa-grade TRIP steel was also focused on. The effects of strain rate on tensile strength and flow stress in the TRIP steels were small whereas that on uniform elongation was large. The strain rate dependences on tensile strength and uniform elongation in the TRIP steels were more closely to those of the metastable austenitic stainless steels than the conventional TRIP and dual-phase steels. The 1 GPa-grade TRIP steel with the γ_R shape of needle-like showed better tensile properties and absorbed energy in the present strain rate range. The volume fraction of γ_R more than 20% and the matrix microstructure of martensite seem to be important factors in the high-strength TRIP steels.