Molecular Dynamics Simulation of Nanoindentation On Diamond Crystal [100] Surface

被引:0
|
作者
Liu Jian [1 ]
Kong Jinxing [2 ]
Lei Dajiang [2 ]
Zhang Yalin [1 ]
Li Haifeng [1 ]
Zhao Xiaoping [1 ]
机构
[1] China Acad Engn Phys, Inst Comp Applicat, POB 919-1201, Mianyang 621900, Sichuan Provinc, Peoples R China
[2] CAEP, Inst Engn Mech, Mianyang 621900, Sichuan Prov, Peoples R China
来源
NEW MATERIALS, APPLICATIONS AND PROCESSES, PTS 1-3 | 2012年 / 399-401卷
关键词
Diamond; Indentation; Molecular Dynamics; POTENTIALS; ENERGY; HYDROCARBONS; SYSTEMS;
D O I
10.4028/www.scientific.net/AMR.399-401.751
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
The nanoindentation of diamond crystal [100] surface is studied in this paper, by using molecular dynamics simulation method and Tersoff potential. The total number of atoms in the model is exceed to 2,000,000. The crystal structure changes and the bond formations of C atoms under pressure load are analyzed. A light load causes lattice distortion but cannot cause bond breaking or hybridization transition from sp3 to sp2. When the load is enough heavy, the energy be imposed on the workpiece will beyond the range of lattice distortion, which can cause bond break and hybridization transition from sp3 to sp2.
引用
收藏
页码:751 / +
页数:2
相关论文
共 50 条
  • [1] Molecular dynamics simulation for plastic deformation mechanisms of single crystal diamond during nanoindentation
    Bai, Qingshun
    Wang, Hongfei
    Dou, Yuhao
    Guo, Wanmin
    Chen, Shandeng
    MOLECULAR SIMULATION, 2022, 48 (11) : 991 - 1002
  • [2] Molecular dynamics simulation of nanoindentation on folded chain crystal of polyethylene
    Yashiro, K
    Furuta, A
    Tomita, Y
    ADVANCES IN FRACTURE AND STRENGTH, PTS 1- 4, 2005, 297-300 : 2247 - 2252
  • [3] Molecular dynamics simulation of nanoindentation of nickel-titanium crystal
    Sushko, G. B.
    Verkhovtsev, A. V.
    Yakubovich, A. V.
    Solov'yov, A. V.
    INTERNATIONAL CONFERENCE ON DYNAMICS OF SYSTEMS ON THE NANOSCALE (DYSON 2012), 2013, 438
  • [4] MOLECULAR DYNAMICS SIMULATION OF NANOINDENTATION
    Terrell, Elon J.
    Landry, Eric
    McGaughey, Alan
    Higgs, C. Fred, III
    PROCEEDINGS OF THE STLE/ASME INTERNATIONAL JOINT TRIBOLOGY CONFERENCE 2008, 2009, : 111 - 113
  • [5] Molecular dynamics simulation of nanoindentation
    Michielsen, K
    Figge, MT
    De Raedt, H
    De Hosson, JTM
    COMPUTER SIMULATION STUDIES IN CONDENSED-MATTER PHYSCIS XVI, 2003, 95 : 250 - 255
  • [6] Nanoindentation response of nickel surface using molecular dynamics simulation
    Chang, Wen-Yang
    Fang, Te-Hua
    Lin, Shiang-Jiun
    Huang, Jian-Jin
    MOLECULAR SIMULATION, 2010, 36 (11) : 815 - 822
  • [7] Investigation of the 'double cross' splitting mechanism of single-crystal diamond under nanoindentation via molecular dynamics simulation
    Wang, Linyuan
    Ke, Hao
    Ma, Jie
    Liu, Jian
    JOURNAL OF MOLECULAR MODELING, 2017, 23 (10)
  • [8] Numerical study of three-body diamond abrasive nanoindentation of single-crystal Si by molecular dynamics simulation
    Dai, Houfu
    Zhang, Fa
    Zhou, Yuqi
    Chen, Jianbin
    APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING, 2019, 125 (05):
  • [9] Investigation of the ‘double cross’ splitting mechanism of single-crystal diamond under nanoindentation via molecular dynamics simulation
    Linyuan Wang
    Hao Ke
    Jie Ma
    Jian Liu
    Journal of Molecular Modeling, 2017, 23
  • [10] Numerical study of three-body diamond abrasive nanoindentation of single-crystal Si by molecular dynamics simulation
    Houfu Dai
    Fa Zhang
    Yuqi Zhou
    Jianbin Chen
    Applied Physics A, 2019, 125
12345