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Molecular dynamics method was used to simulate tensile deformation of the high-purity single-crystal tungsten nanowire prepared by the metal-catalyzed vapor-phase reaction method first proposed by our research group. Stress-strain curve and microscopic deformation structure were analyzed in order to reveal the tensile deformation characteristics and microscopic failure mechanism of the single-crystal tungsten nanowire. Results show that the whole stress-strain curve can be classified into five stages: elastic stage, damage stage, phase transition stage, hardening stage and failure stage, where the phase transition is the main reason for hardening of the single-crystal tungsten nanowire. The first stress drop is caused by irreversible change of the local atomic dislocation and twinning, and the second stress drop is due to lattice structure failure resulting from the local atomic dislocation of the strengthened material and the development of split-forming necking area leading to the fracture of single-crystal tungsten nanowires. Calculated result of the elastic modulus is in good agreement with the test results of elastic modulus of the single-crystal tungsten nanowire.
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Keywords:
- molecular dynamics /
- stress-strain curve /
- microscopic mechanism /
- single-crystal tungsten nanowire
[1] Wang S L, He Y H, Tang Y W, Huang B Y 2004 China. Tungsten. Industry 19 48 (in Chinese) [王世良, 贺跃辉, 汤义武, 黄伯云 2004 中国钨业 19 48]
[2] Umnov A G, Shiratori Y, Hiraoka H 2003 Appl. Phys. 77 159
[3] Pedrom F J C, Fang X S, Wang S L, He Y H, Yoshio B M M, Zou J, Huang H, Dmitri G 2009 Microscopy. Res. Techn. 72 93
[4] Sreeram V, Hari C, Mahendra K S 2003 J. Amchem. Soc. 125 10792
[5] Olivier L G, Joachim W A, Moon-Chul J 2002 Nano. Lett. 2 191
[6] Tansel K, Wang P I 2005 Thin. Solid. Films 493 293
[7] Huang H, Wu Y Q, Wang S L, He Y H, Zou J, Huang B Y, Liu C T 2009 Mater. Sci. Eng. A 523 193
[8] Wen Y H, Zhang Y, Zhu Z Z 2008 Acta. Phys. Sin. 57 1834 (in Chinese) [文玉华, 张杨, 朱梓忠 2008 57 1834]
[9] Zhou G R, Gao Q M 2007 Acta. Phys. Sin. 56 1499 (in Chinese) [周国荣, 高秋明 2007 56 1499]
[10] Wu H A, Wang X X, Ni X G 2002 Acta. Metall. Sin 38 1219 (in Chinese) [吴恒安, 王秀喜, 倪向贵 2002 金属学报 38 1219]
[11] Wang S L, He Y H, Fang X S, Zou J, Wang Y, Huang H, Costa P M F J, Song M, Huang B Y, Liu C T, Liaw P K, Bando Y, Golber D 2009 Adv. Mater. 21 2387
[12] Allen M P,Tildesley D J 1987 Computer Simulation of liquids (Oxford: Clarendon Press) p78
[13] Foiles S M, Baskes M I, Daw M S 1986 Phys. Rev. B 33 7983
[14] Zhou X W, Johnson R A, Wadley H N G 2004 Phys. Rev. B 69 1
[15] Willian G H 1985 Phys. Rev. A 31 1695
[16] Hou L Z, Wang S L, Chen G L, He H Y, Xie Y 2013 Transactions of Nonferrous Metals Society of China (In-press)
[17] Volker C, Claus C R, Jorg P, Merten N, Oliver A, Klemens B, Matthias H, Jochen W, Srdjan M, Andrew J S, Achim W H 2008 J. Nanomater 638947 1
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[1] Wang S L, He Y H, Tang Y W, Huang B Y 2004 China. Tungsten. Industry 19 48 (in Chinese) [王世良, 贺跃辉, 汤义武, 黄伯云 2004 中国钨业 19 48]
[2] Umnov A G, Shiratori Y, Hiraoka H 2003 Appl. Phys. 77 159
[3] Pedrom F J C, Fang X S, Wang S L, He Y H, Yoshio B M M, Zou J, Huang H, Dmitri G 2009 Microscopy. Res. Techn. 72 93
[4] Sreeram V, Hari C, Mahendra K S 2003 J. Amchem. Soc. 125 10792
[5] Olivier L G, Joachim W A, Moon-Chul J 2002 Nano. Lett. 2 191
[6] Tansel K, Wang P I 2005 Thin. Solid. Films 493 293
[7] Huang H, Wu Y Q, Wang S L, He Y H, Zou J, Huang B Y, Liu C T 2009 Mater. Sci. Eng. A 523 193
[8] Wen Y H, Zhang Y, Zhu Z Z 2008 Acta. Phys. Sin. 57 1834 (in Chinese) [文玉华, 张杨, 朱梓忠 2008 57 1834]
[9] Zhou G R, Gao Q M 2007 Acta. Phys. Sin. 56 1499 (in Chinese) [周国荣, 高秋明 2007 56 1499]
[10] Wu H A, Wang X X, Ni X G 2002 Acta. Metall. Sin 38 1219 (in Chinese) [吴恒安, 王秀喜, 倪向贵 2002 金属学报 38 1219]
[11] Wang S L, He Y H, Fang X S, Zou J, Wang Y, Huang H, Costa P M F J, Song M, Huang B Y, Liu C T, Liaw P K, Bando Y, Golber D 2009 Adv. Mater. 21 2387
[12] Allen M P,Tildesley D J 1987 Computer Simulation of liquids (Oxford: Clarendon Press) p78
[13] Foiles S M, Baskes M I, Daw M S 1986 Phys. Rev. B 33 7983
[14] Zhou X W, Johnson R A, Wadley H N G 2004 Phys. Rev. B 69 1
[15] Willian G H 1985 Phys. Rev. A 31 1695
[16] Hou L Z, Wang S L, Chen G L, He H Y, Xie Y 2013 Transactions of Nonferrous Metals Society of China (In-press)
[17] Volker C, Claus C R, Jorg P, Merten N, Oliver A, Klemens B, Matthias H, Jochen W, Srdjan M, Andrew J S, Achim W H 2008 J. Nanomater 638947 1
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