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金属纳米线弹性性能的尺寸效应及其内在机理的模拟研究
引用本文:阳喜元,全军. 金属纳米线弹性性能的尺寸效应及其内在机理的模拟研究[J]. 物理学报, 2015, 64(11): 116201-116201. DOI: 10.7498/aps.64.116201
作者姓名:阳喜元  全军
作者单位:岭南师范学院物理科学与技术学院, 湛江 524048
基金项目:国家自然科学基金(批准号:11304276,11147152)和岭南师范学院人才引进项目(批准号:ZL1405)资助的课题.
摘    要:本文应用分子动力学(MD)方法和改进分析型嵌入原子模型(MAEAM)研究了Ni, Al和V纳米线的弹性性能尺寸效应及表面对其影响, 并计算了相应完整晶格材料的弹性性能. 结果表明本文计算完整晶格材料的弹性性能与已有实验和理论的结果相符合. 而计算所得各金属纳米线的体模量明显低于相应块体材料的结果, 且随纳米线的尺寸增加而呈指数增加, 并接近于常数. 在此基础上, 通过研究Ni, Al和V纳米线表面能的尺寸效应及其分布特征进一步探讨了自由表面在尺寸影响纳米线弹性性能过程中的作用及其内在机理.

关 键 词:弹性性能  尺寸效应  内在机理  纳米线
收稿时间:2014-11-13

Simulations of the size effect on the elastic properties and the inherent mechanism of metallic nanowire
Yang Xi-Yuan,Quan Jun. Simulations of the size effect on the elastic properties and the inherent mechanism of metallic nanowire[J]. Acta Physica Sinica, 2015, 64(11): 116201-116201. DOI: 10.7498/aps.64.116201
Authors:Yang Xi-Yuan  Quan Jun
Affiliation:Physics Science and Technology School, Lingnan Normal University, Zhanjiang 524048, China
Abstract:In this paper molecular dynamics (MD) method and the modified analytical embedded atom model (MAEAM) are used to investigate the size effect on the elastic properties of Ni, Al and V nanowires and the role the free surface plays. For convenience of comparison, the elastic properties of these corresponding perfect bulk materials are also studied. Results obtained indicate that the calculated values of the elastic properties of these perfect materials are in good agreement with those previously given theoretical and experimental ones. But the calculated bulk moduli of the nanowires, which are lower than those of the prefect materials, increase exponentially with increasing size of the nanowire and are nearly close to a constant (180.20 GPa for the Ni nanowire, 83.98 GPa for the Al nanowire and 162.48 GPa for the V nanowire). Meanwhile, the surface energy of the nanowire decreases exponentially with the increase of its size and reaches a minimal value (1.84 J·m-2 for the Ni nanowire, 0.77 J·m-2 for the Al nanowire, and 1.71 J·m-2 for the V nanowire), which is consistent with the corresponding bulk material. And the critical value of the size, which has a distinct effect on the elastic properties and the surface energy, is about 5.0 nm for all nanowires. On this basis, the free surface dependence of the elastic properties of these metallic nanowires and the inherent mechanisms are further discussed by exploring the size effect on the surface energies of Ni, Al and V nanowires and their distribution characteristics, showing that the free surface plays a more and more important role in the diminution of the elastic properties of nanowires as the size decreases. The mode of the surface impacting on the elastic properties of nanowire is described as follows:The surface first reduces the compressional stress of the internal core region of nanowires and then the reduced compressional stress results further in the decrease in the elastic properties of nanowires.
Keywords:elastic properties  size effect  inherent mechanism  nanowire
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