Formation of nano martensite grain with specific angle grain boundary during the drawing process of 316L stainless steel

The evolution of the deformation-induced martensite in the drawn 316L stainless steel and its effect on mechanical performance are examined. Both the yield strength and ultimate tensile strength of the 316L wire reach over 2.3 GPa at a drawing strain of 3.44. The deformation production of the wire during the drawing process is dislocation, twin and finally, deformation-induced alpha '-martensite. The neighboring misorientation between alpha '-martensite shows a preferential distribution around 60 degrees due to variant selection limited by a double K-S orientation relationship. This preferential misorientation distribution around similar to 60 degrees is stable during the drawing process, and the alpha '-martensite has been refined to possess an average boundary spacing of similar to 50 nm at a strain of 3.44.