| 过渡型界面对粗晶/超细晶异质结构铜屈服和断裂行为的影响(英文) |
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| 引用本文: | 王艳飞,王明赛,殷琨,黄爱辉,李玉胜,黄崇湘. 过渡型界面对粗晶/超细晶异质结构铜屈服和断裂行为的影响(英文)[J]. 中国有色金属学会会刊, 2019, 0(3): 588-594 |
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| 作者姓名: | 王艳飞 王明赛 殷琨 黄爱辉 李玉胜 黄崇湘 |
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| 作者单位: | 四川大学空天科学与工程学院;南京理工大学材料科学与工程学院纳米结构材料中心 |
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| 基金项目: | Projects(11672195,51301092) supported by the National Natural Science Foundation of China;Project(2016JQ0047) supported by Sichuan Youth Science and Technology Foundation,China |
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| 摘 要: | 为了研究界面约束对异质结构材料屈服和断裂力学性能的影响,采用搅拌摩擦加工方法制备具有过渡型界面的粗晶/超细晶纯铜式样。拉伸测试结果表明:由粗晶和超细晶力学不协调单元弹-塑性交互作用所产生的协同强化效应随约束面积的增加而增加。使用数字散斑相关方法揭示异质结构材料颈缩过程中界面区域的应变集中分布。使用扫描电子显微镜系统分析断口形貌特征。结果发现,界面区域分布有大量大尺寸韧窝,这可能是因为粗晶与超细晶的交互约束作用在界面处产生高三轴内应力和塑性应变累积。此外,还发现粗晶区域通过剪切方式断裂,而不是拉伸应力所引起的韧窝生长机制。
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| 关 键 词: | 异质结构材料 界面 约束 协同强化 断裂 |
Yielding and fracture behaviors of coarse-grain/ultrafine-grain heterogeneous-structured copper with transitional interface |
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| Yan-fei WANG,Ming-sai WANG,Kun YIN,Ai-hui HUANG,Yu-sheng LI,Chong-xiang HUANG. Yielding and fracture behaviors of coarse-grain/ultrafine-grain heterogeneous-structured copper with transitional interface[J]. Transactions of Nonferrous Metals Society of China, 2019, 0(3): 588-594 |
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| Authors: | Yan-fei WANG Ming-sai WANG Kun YIN Ai-hui HUANG Yu-sheng LI Chong-xiang HUANG |
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| Affiliation: | (School of Aeronautics and Astronautics, Sichuan University, Chengdu 610065, China;Nano and Heterogeneous Structural Materials Center, School of Materials Science and Engineering,Nanjing University of Science and Technology, Nanjing 210094, China) |
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| Abstract: | Heterogeneous-structured Cu samples composed of coarse-grained(CG) and ultrafine-grained(UFG) domains with a transitional interface were fabricated by friction stir processing, in order to investigate the effect of interface constraint on the yielding and fracture behaviors. Tensile test revealed that the synergetic strengthening induced by elastic/plastic interaction between incompatible domains increases with increasing the area of constraint interface. The strain distribution near interface and the fracture morphology were characterized using digital image correlation technique and scanning electron microscopy, respectively. Fracture dimples preferentially formed at the interface, possibly due to extremely high triaxial stress and strain accumulation near the interface. Surprisingly, the CG domain was fractured by pure shear instead of the expected voids growth caused by tensile stress. |
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| Keywords: | heterogeneous structure interface constraint synergetic strengthening fracture |
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