| 1. | Oxidation - induced stacking faults in cz silicon
直拉硅中氧化诱生层错研究进展 |
| 2. | Oxidation induced stacking fault
氧化感应叠层缺陷 |
| 3. | Concentration of stacking faults
堆垛层错密度 |
| 4. | Calculation of electron structure and stacking fault energy of the strengthening phase ni3al
基超合金强化相的电子结构和层错能的计算 |
| 5. | More detail on dislocations , including partials , stacking faults , and dislocation intersections are discussed
更深入了解差排,探讨包含部份差排、叠差及差排间交互作用。 |
| 6. | The microprocesses of deformation and fracture in 18 - 8 stainless steel were observed by in - situ tension in tem . it was found that the dislocations were emitted from the grainboundary and dislocation source inside a grain and slip along their slip system respectively . partial dislocation could also be emitted from the grainboundary , and moved into the grain , and that leaving behind a stacking fault
摘要浙江人学博1 :学位论文采用透射电镜动态拉伸、原位观察icrlsnigti不锈钢形变与断裂过程,发现不锈钢变形时,晶界和晶内位错源均可产生位错,并沿各自的滑移系运动。 |
| 7. | The width of stacking fault increased as partial dislocations move forward . in the fracture of 18 - 8 stainless steel , many dislocations were emitted from the crack tip during the early stage of crack propagation and moved forward , and then a dfz was formed between the crack tip and the pile - up dislocations . the dfz is an elastic zone
不锈钢断裂时,裂尖首先发射位错,并离开裂尖向前运动,裂尖前方留下无位错区,位错反塞积在无位错区的端部,无位错区是应变很高的异常弹性区,随着裂纹的扩展,无位错区逐渐发生晶体碎化和转动。 |
