The effect of grain boundary character distribution on the mechanical properties at different strain rates of a 316L stainless steel

Grain boundary engineering was applied to a 316L stainless steel. The proportion of low- Σ coincidence site lattice boundaries was increased to more than 70% in the GBE specimen. The effect of grain boundary character distribution formed through GBE on the mechanical properties at different strain rates (4 × 10 −2 , 4 × 10 −3 , 4 × 10 −4 , 4 × 10 −5 s −1 ) was studied by tensile test at room temperature. The results showed that the GBE specimens exhibited higher uniform elongation than the non-GBE specimens. With the strain rate decreasing, the uniform elongations of GBE specimens had a greater extent of increase. The local misorientation, average Schmid factor ( m ¯ ) and Taylor factor ( M ) in GBE and non-GBE specimens at uniform plastic deformation area were studied by using electron backscatter diffraction. The results indicate that the micro-zone strain was more uniformly distributed and the activation process of the slip system was apt to happen in the GBE specimens.