The significance of deformation mechanisms on the fracture behavior of phase reversion-induced nanostructured austenitic stainless steel

Abstract: We describe here the relationship between grain structure, deformation mechanism and fracture characteristics in an austenitic stainless steel. This was accomplished using the novel concept of phase reversion that enabled a wide range of grain size from nanograined/ultrafine grained (NG/UFG) to coarse-grained (CG) regime to be obtained in a single material through change in temperature-time annealing sequence. In the NG/UFG structure, a marked increase in abundance of stacking faults (SFs) and twin density wit… Show more

“…Austenitic stainless steel is widely used in the welding core, anti-magnetic instrument, medical device and aviation because of its high strength, high modulus of elasticity and high corrosion resistance [1,2]. However, great cutting force and high cutting temperature were produced in the machining of stainless steel due to its high strength and hardness at high temperature, high plasticity, high toughness and low thermal conductivity [3]. The cutting process is unstable, workhardening is serious and tools are prone to adhesive wear during machining austenitic stainless steel [4][5][6].…”

Fabrication of TiC-TiB₂ composite ceramic tool and its cutting performance in turning austenitic stainless steel

“…Austenitic stainless steel is widely used in the welding core, anti-magnetic instrument, medical device and aviation because of its high strength, high modulus of elasticity and high corrosion resistance [1,2]. However, great cutting force and high cutting temperature were produced in the machining of stainless steel due to its high strength and hardness at high temperature, high plasticity, high toughness and low thermal conductivity [3]. The cutting process is unstable, workhardening is serious and tools are prone to adhesive wear during machining austenitic stainless steel [4][5][6].…”

Fabrication of TiC-TiB₂ composite ceramic tool and its cutting performance in turning austenitic stainless steel

Atomistic simulation of martensitic transformations induced by deformation of α-Fe single crystal during the mode-I fracture

An exceptionally strong, ductile and impurity-tolerant austenitic stainless steel prepared by laser additive manufacturing