鋼材の微視的組織形態と結晶粒界近傍の変形挙動に注目した強度特性評価のための数値解析法

抄録

Numerical analysis method considering microstructure and deformation near the grain boundary is proposed in order to fundamentally evaluate strength properties of steels. The parameters that characterize grain shape, such as grain diameter, aspect ratio and grain orientation, are quantified for ferritic-phase steel. Two dimensional grain shapes reflecting the distribution of those parameters are modeled by the use of Voronoi tessellation that is the method to divide the region into arbitrary polygons. Stress distribution in the case of tensile load applied to such a set of grains is calculated by Finite Element Method (FEM). Mismatch of displacement near the grain boundary is also considered in the calculation as a boundary slip. Discontinuity of stress distribution on grain boundary is seen even though the single-phase steel is used and the same stress-strain property is given to all grains. Stress concentration around triple junction is also observed due to results of considering the mismatch of displacement near the grain boundary. The effects of distribution of grain shape parameters on stress distribution are investigated for the fundamental application of this analysis model, and the difference of stress distribution is estimated. It can be mentioned that numerical analysis model in this paper is available for the evaluation of strength characteristics of steels.