水中受拉伸负载下单壁纳米碳管机械性质的分子动力学研究

Mechanical Behavior of Single-Walled Carbon Nanotubes in Water under Tensile Loadings: A Molecular Dynamics Study

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中文摘要：利用分子动力学方法研究了(5,5)扶手椅型和(10,10)锯齿型纳米碳管在水中受拉伸负载下的机械性质. 通过计算纳米碳管中氧和氢原子的局部密度分布研究了限制效应. 结果表明,碳管在水中的杨式系数与在真空下相同,而碳管在水中的拉伸应力小于在真空中的.

外文摘要：Molecular dynamics simulation was carried out to investigate the behavior of (5,5) and (10,10) armchair carbon nanotubes in water under tensile loading. The water molecules inside a nanoscale tube, unlike inside a bulk tube, have a confined effect. The local density distributions of oxygen and hydrogen atoms inside the carbon nanotubes were calculated to find the confinement effect. Moreover, the mechanical behavior of carbon nanotubes in water was studied under tensile loading. The results show that the Young's modulus of nanotubes in water remains the same as that in vacuum. However, the tensile stress of nanotube in water is less than that in vacuum.

外文关键词：

molecular dynamics simulationcarbon nanotubewatertensile loadingmechanical behaviornano-confinement

作者：

朱训鹏、翁盟雄、林振森、卢建铭、张自恭、吴文贤

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作者单位：

中山大学机械与机电工程学系纳米科技与科学中心,台湾高雄,80424

联合大学机械工程学系,台湾苗栗,360

高速计算机中心,台湾台南,701

关键词：

分子动力学纳米碳管水拉伸负载机械性质纳米限制

基金：

National Science Council of Taiwan, China

项目编号：

NSC-96-2628-E-239-003-MY3

出版年：

2008

催化学报

中国化学会中国科学院大连化学物理研究所

催化学报

CSTPCDCSCD北大核心SCI

影响因子：1.269

ISSN：0253-9837

年,卷(期)：2008.29(11)

参考文献量19