Mechanism of Grain Refinement Induced by Severe Plastic Deformation
Within the framework of crystal plasticity the grain refinement observed in metals exposed to severe plastic deformation(SPD) is interpreted as an energy minimization process. For a crystalline solid it is less energetically costly to be fragmented in small regions(subgrains) deformed by a reduce d number of slip systems and fitted together by local reorientations than to be deformed by homogeneous multislip.The energy minimization enhanced by hardening tends to reduce the size of the subgrains. On the other hand, the refinement increases the area of the boundaries between the subgrains, hence, it increases interface energy. Thus, the size of the subgrains is the result of a competition between these two tendencies:the internal and dissipative energy tend to decrease the refined structural size, whereas the interface energy opposes this tendency. Moreover, the formed substructure pattern follows the orientation of the active slip systems. The effective rotation of the active slip systems, which is a basic charac-teristic of SPD processing techniques, enhances the refinement process. It is proposed that the effective rotation causes a continuous reconstruction of the substructure pattern. The hindered destruction of the previous pattern leads to an increased hardening thus reducing the size of the subgrains. The proposed approach is demonstrated in the analysis of the refinement process induced by high pressure torsion and the results are correlated with the available observations.
Jan Kratochvil
Czech Technical University,Faculty of Civil Engineering,Department of Physics,Thakurova 7,166 29 Prague and Charles University,Faculty Mathematics and Physics,Mathematical Institute.Sokolovska 83,186 75 Prague.Czech Republic
国际会议
5th International Conference on Nanomaterials by Severe Plastic Deformation(第五届剧烈塑性变形纳米材料国际会议)
南京
英文
617-622
2011-03-01(万方平台首次上网日期,不代表论文的发表时间)