| 1. | Computer simulation for the stress field of edge dislocation 刃型位错应力场分量的计算机模拟 |
| 2. | Investigation of structure and energy of edge dislocation in bcc iron 中刃型位错的结构及能量学研究 |
| 3. | The electronic structure and doping effect of edge dislocation in iorn 中刃型位错及其掺杂体系的电子结构 |
| 4. | Model construction and electronic structure investigation of edge dislocation core in fe 中刃型位错芯的模型建立及电子结构研究 |
| 5. | Atomistic simulation of the relaxed structure and energy of edge dislocation in metal ta 中刃型位错弛豫结构和能量的原子级模拟 |
| 6. | The influence of crack geometrical dimension and materials elastic constants on edge dislocation force is evaluated and discussed when dislocation is located in matrix 在压电材料中,由于电弹耦合效应,软夹杂也可能排斥位错。 |
| 7. | It is shown that the interfacial crack has a significant effect on the equilibrium position of the edge dislocation near circular interface . the results also exhibit a strong dependency different between the shear modulus and poisson ' s ratios of the matrix and the inclusion 刃型位错与含界面裂纹的夹杂干涉效应表明:当位错接近界面时,裂纹对位错平衡位置有很大的影响;平衡位置对两种材料的弹性性质也有很大依赖性。 |
| 8. | The interaction effects between circular interfacial cracks or rigid line inclusions and a screw dislocation located either outside or inside inhomogeneity under antiplane shear , the electroelastic interaction between a piezoelectric screw dislocation located either outside or inside inhomogeneity and circular interfacial cracks and rigid lines under longitudinal mechanical and inplane electrical loads in linear piezoelectric materials and the elastic interaction between an edge dislocation located either outside or inside inhomogeneity and interfacial crack along a circular inhomogeneity are dealt with in this paper 本文首次对位错与圆形弹性夹杂界面典型缺陷的力、电干涉进行研究,解决了无穷远反平面剪切作用下螺型位错与含界面裂纹或界面刚性线圆形夹杂的弹性干涉问题;无穷远纵向剪切和面内电场共同作用下压电螺型位错与含界面裂纹或界面刚性线圆形压电夹杂的力电耦合效应问题:刃型位错与含界面裂纹圆形弹性夹杂的干涉问题。 |