中文摘要：

为了定量描述晶粒取向和结构对极薄带轧制微观塑性变形非均匀性的影响,采用晶体塑性有限元方法（CPFEM）和Voronoi图的多晶模型,考虑试样尺寸、晶粒尺寸、晶体取向及其分布,模拟了不同厚度Cu极薄带在相同压下率条件下的滑移与变形行为,得到了介观尺度上Cu极薄带的微观应力-应变和启动滑移系分布.模拟获得的应力-应变曲线和实验测得的曲线基本一致,验证了晶体塑性有限元模型的准确性.通过对40%压下率Cu极薄带轧制变形的研究表明,无论是在晶粒内部还是在晶粒间,材料内部的变形都非常不均匀,这种不均匀性主要是由初始晶粒取向和结构不同、近邻晶粒取向差以及变形时滑移系的运动特性和晶粒旋转不同引起的.滑移系首先在自由表面和晶界处被激活,而后引起晶粒内部滑移系的启动与运动.

英文摘要：

When the part size is scaled down to micro-scale, the material consists of only a few grains and the material properties and deformation behaviors are quite different from the conventional ones in macro-scale. In micro-scaled plastic deformation process such as ultra-thin strip rolling, material thickness effect is difficult to reveal and investigate using conventional material models. The distributions of the stress, strain and active slip systems, and the slip and deformation behavior in rolled pure ultra-thin copper strip with the same reduction were simulated by the crystal plasticity finite element method（CPFEM） and Voronoi polycrystalline model with respect to specimen dimension, grain size, grain orientation and its distribution to evaluate quantitatively the influence of grain orientation and structure on inhomogeneous deformation behavior of ultra-thin strip rolling on a mesoscale. A polycrystalline aggregate model is generated and a crystal plasticity based an implicit finite element model is developed for each grain and the specimen as a whole. The crystal plasticity model itself is rate dependent and accounts for local dissipative hardening effects and the original orientation of each grain was generated based on the orientation distribution function（ODF）. Voronoi tessellation has been applied to describe the polycrystalline aggregation.The accuracy of the developed CPFEM model is verified by the fact that the simulated stress- strain curves agreewell with the experimental results. The deformation behaviors, including inhomogeneous material flow, and slip system activity with the increase of thickness size for the constant size of grain, are studied. It is revealed that when the ultra- thin strips are composed of only a few grains through thickness direction, the grains with different size,shapes and orientations are unevenly distributed in the ultra-thin strip and each grain plays a significant role in micro-scale plastic deformation, slip system activity and leads to inhomogeneous deformatio