Tensile Behavior of Single-Crystal Nano-Sized Copper Beams with Voids

Solveig Melin; Aylin Ahadi; Per Hansson

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Tensile Behavior of Single-Crystal Nano-Sized Copper Beams with Voids

机译：含空隙的单晶纳米铜梁的拉伸行为

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The tensile response under displacement controlled loading of nano-sized single crystal Cu beams, solid or holding square shaped through-the thickness voids, have been investigated through 3D molecular dynamics simulations using free-ware LAMMPS [1]. For the same beam size and void height, the void width along the beam length axis was varied. Two different crystallographic orientations were considered. It was found that, under some circumstances, voids were able to close and heal the beam cross section, causing final failure through necking in the region of the initial void. For other cases instead the void split in two, smaller voids that both eventually healed. A third scenario was that the void widened, splitting the beam in two ligaments that each necked individually. As expected, both defect geometry and crystal orientation influences the mechanical behavior.

机译：通过使用免费软件LAMMPS的3D分子动力学模拟研究了纳米尺寸的单晶Cu形梁，固体或保持正方形的贯穿厚度的空隙在位移控制载荷下的拉伸响应。对于相同的光束尺寸和空隙高度，沿着光束长度轴的空隙宽度是变化的。考虑了两种不同的晶体学取向。已经发现，在某些情况下，空隙能够闭合并愈合光束的横截面，从而通过在原始空隙的区域内缩颈而导致最终的破坏。在其他情况下，空隙分成两个较小的空隙，最终都被治愈。第三种情况是，空隙扩大了，将光束分成了两个分别被分别颈缩的韧带。不出所料，缺陷的几何形状和晶体取向都会影响机械性能。

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《Diffusion and Defect Data. Solid State Data, Part B. Solid State Phenomena》 |2016年第null期|共4页
作者
Solveig Melin; Aylin Ahadi; Per Hansson;
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正文语种 eng
中图分类半导体物理学;
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voids in nano-beams; MD simulations; single crystal Cu; void size effects; tensile strength;

机译：纳米束中的空隙;MD模拟;单晶铜;空隙尺寸效应;拉伸强度;

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2. 温度对一种含Re单晶高温合金拉伸行为和变形机制的影响 [J] . 刘金来, 于金江, 金涛, 中国有色金属学报：英文版 . 2011,第007期
3. Tensile Behavior of Single-Crystal Nano-Sized Copper Beams with Voids [J] . Solveig Melin, Aylin Ahadi, Per Hansson Diffusion and Defect Data. Solid State Data, Part B. Solid State Phenomena . 2016,第Null期

机译：含空隙的单晶纳米铜梁的拉伸行为
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6. Tensile Behavior of Single-Crystal Nano-Sized Copper Beams with Voids [C] . Solveig Melin, Aylin Ahadi, Per Hansson International Conference on Materials Structure Micromechanics of Fracture . 2017

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Tensile Behavior of Single-Crystal Nano-Sized Copper Beams with Voids

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