吴小光, 江五贵. 枝节碳纳米管断裂性能的原子有限元模拟[J]. 南昌航空大学学报(自然科学版), 2013, 27(3): 13-16,36. DOI: 10.3969/j.issn.1001-4926.2013.09.002
引用本文: 吴小光, 江五贵. 枝节碳纳米管断裂性能的原子有限元模拟[J]. 南昌航空大学学报(自然科学版), 2013, 27(3): 13-16,36. DOI: 10.3969/j.issn.1001-4926.2013.09.002
WU Xiao-guang, JIANG Wu-gui. Atomic Finite Element Simulation for Fracture Property of Branched Carbon Nanotubes[J]. Journal of nanchang hangkong university(Natural science edition), 2013, 27(3): 13-16,36. DOI: 10.3969/j.issn.1001-4926.2013.09.002
Citation: WU Xiao-guang, JIANG Wu-gui. Atomic Finite Element Simulation for Fracture Property of Branched Carbon Nanotubes[J]. Journal of nanchang hangkong university(Natural science edition), 2013, 27(3): 13-16,36. DOI: 10.3969/j.issn.1001-4926.2013.09.002

枝节碳纳米管断裂性能的原子有限元模拟

Atomic Finite Element Simulation for Fracture Property of Branched Carbon Nanotubes

  • 摘要: 枝节碳纳米管及其相关力学性能的研究在现代硅微电子工业中具有重要意义。采用原子级有限元法(AFEM)在原子尺度研究了"Y"型枝节单壁碳纳米管(YBSCNT)结构的断裂性能,并探讨了YBSCNT的直径和长度对结构的等效弹性模量、断裂应变和抗拉强度力学性能的影响。数值模拟表明:随着直径的增大,YBSCNT的等效弹性模量、断裂应变和抗拉强度均减小;随着长度的增大,YBSCNT的等效弹性模量减小,断裂应变和抗拉强度增大。本文的研究方法可用于枝状结构碳纳米管等效力学性能的预测,为今后枝节纳米管的优化设计提供有力的工具。

     

    Abstract: Branched carbon nanotubes and the related studies on their mechanical properties have important significance in modern silicon microelectronics industry. The fracture properties of the "Y" shaped branched single-walled carbon nanotubes(YBSCNTs) were investigated in atomic-scale by using atomic finite element method(AFEM). Moreover, the influences of the diameter and the length of the YBSCNTs on the equivalent elastic modulus, the fracture strain and the tensile strength were also discussed. The results of numerical simulations show that with the increasing tube diameter, the equivalent elastic modulus, the fracture strain and the tensile strength of the YBSCNTs will decrease, with the increasing length, the equivalent elastic modulus will decreases, while the fracture strain and the tensile strength will increase. The suggested method provides a convenient tool for estimating the effective mechanical properties, therefore, which is helpful for the optimal design of YBSCNTs.

     

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