Relationship between microstructure and properties during multi-pass, variable routes and different initial temperatures hot flat rolling of AZ31B magnesium alloy

摘要

The hot flat rolling process of twin-roll cast (TRC) AZ31B magnesium alloy was investigated and carried out under conditions of four initial temperatures, four-pass successive reductions and four rolling routes. Qualitative and quantitative analysis on the microstructure, micro-Vickers hardness, 0.2% proof stress and tensile strength was performed. Cooperative effect of grain refinement, basal texture, dispersion of microstructural distribution and anisotropy of plate on 0.2% proof stress was considered to determine the optimum fitting scheme for Hall-Petch equation (H-P for short). The relationships between 0.2% proof stress, tensile strength and micro-Vickers hardness were defined through regression analysis and mathematical modeling. Then the micro-Vickers hardness parameter in equations was eliminated using an elimination method to establish the mathematic relationship between 0.2% proof stress and tensile strength (T-Y for short). And the relationship between grain size and tensile strength was established using the mathematical elimination again to eliminate the yield strength parameter in H-P equation and T-Y equation. The analysis shows that the relationship between tensile strength and d(m)(-1/2) is approximately characterized as a quadratic function where coefficients are influenced greatly by texture and the dispersion of microstructural distribution. (C) 2016 Elsevier Ltd. All rights reserved.