{Reference Type}: Journal Article
{Title}: Effect of High-Temperature Deformation Twinning on the Work Hardening Behavior of Fe-38Mn Alloy during Hot Shear-Compression Deformation.
{Author}: Sang D;Xin X;Zhai Z;Fu R;Li Y;Jing L;
{Journal}: Materials (Basel)
{Volume}: 17
{Issue}: 15
{Year}: 2024 Jul 24
{Factor}: 3.748
{DOI}: 10.3390/ma17153641
{Abstract}: The effect of high-temperature deformation twinning on the work hardening behaviors of Fe-38Mn alloy during hot shear-compression deformation was investigated. The discovery of micro-shear bands and deformation twinning is significant for continuous work hardening, and this represents an important step toward gaining a complete understanding of the effect of deformation twinning on work hardening behaviors. Deformation twinning is widely acknowledged to accommodate plastic strain under cold deformation, even under severe plastic deformation. At present, the equivalent stress vs. strain curves for hot shear-compression deformation of Fe-38Mn alloy exhibit the characteristics of continuous work hardening. In addition, continuous work hardening is classified into five stages when considering high-temperature deformation twinning.