Design for strength-ductility synergy of 316L stainless steel with heterogeneous lamella structure through medium cold rolling and annealing

Abstract

Superior strength-ductility synergy of 316L stainless steel was achieved through medium cold rolling and subsequent annealing, which successfully fabricated heterogeneous lamella structure (HLS), reduced processing cost and improved preparation controllability. The HLS in 316L stainless steel processed by lower original rolling strain was more stable, and its microstructure was characterized with lamella recrystallized grain clusters and lamella coarse grains that were sandwiched by the mixtures of nano-sized twin bundles and ultrafine grains. The satisfactory strength-ductility synergy was mainly determined by the contents of various microstructures as well as the soft/hard interfaces in HLS. The high strength was obtained from hard ultrafine grains and nano-twin bundles. Meanwhile, the back stress induced by soft/hard interfaces also contributed to the high strength. For the favorable ductility, it was ascribed to the generation of plentiful forest dislocations in soft structures and geometrically necessary dislocations around soft/hard interfaces. It is specially noted that high yield strength (∼820 MPa) and good uniform elongation (∼10.6%) can be simultaneously obtained for the annealed 70% cold rolled 316L stainless steel. These results may markedly boost the industrial application of HLS 316L stainless steel.