Strain-driven phase transition of molybdenum nanowire under uniaxial tensile strain

Computational Materials Science

Volumn 50, Issue 2, 2010, Pages 373-377

  Wang, Jiaming ^a   Hu, Wangyu ^a   Li, Xiaofan ^a   Xiao, Shifang ^a   Deng, Huiqiu ^a  

^a HUNAN UNIVERSITY   (China)

Author keywords

Molecular dynamics simulation; Molybdenum nanowire; Phase transition; Uniaxial tensile strain

Indexed keywords

ATOMIC ENERGIES; BCC AND FCC STRUCTURES; BCC PHASE; BCC STRUCTURE; EMBEDDED-ATOM METHOD POTENTIALS; FCC STRUCTURES; MO NANOWIRE; MOLECULAR DYNAMICS SIMULATIONS; PSEUDOELASTICITY; RADIAL DISTRIBUTION FUNCTIONS; TENSILE PROCESS; TRANSITION MECHANISM; TRANSITION PROCESS; UNIAXIAL TENSILE STRAIN;

BEHAVIORAL RESEARCH; CRYSTAL STRUCTURE; DISTRIBUTION FUNCTIONS; MOLECULAR DYNAMICS; MOLECULAR MECHANICS; MOLYBDENUM; NANOWIRES; PHASE TRANSITIONS;

TENSILE STRAIN;

EID: 78449235273     PISSN: 09270256     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.commatsci.2010.08.029     Document Type: Article

References (35)

1. E.W. Wong, P.E. Sheehan, and C.M. Lieber Science 277 1997 1971
2. B. Wu, A. Heidelberg, and J.J. Boland Nat. Mater. 4 2005 525
3. J.C. Gonźalez, V. Rodrigues, J. Bettini, L.G.C. Rego, A.R. Rocha, P.Z. Coura, S.O. Dantas, F. Sato, D.S. Galṽao, and D. Ugarte Phys. Rev. Lett. 93 12 2004 126103
4. X.D. Han, K. Zheng, Y.F. Zhang, X.N. Zhang, Z. Zhang, and Z.L. Wang Adv. Mater. 19 2007 2112
5. E.Z. da Silva, A.J.R. da Silva, and A. Fazzio Phys. Rev. Lett. 87 2001 256102
6. S.J.A. Koh, H.P. Lee, C. Lu, and Q.H. Cheng Phys. Rev. B 72 2005 085414
7. W.W. Liang, and M. Zhou Phys. Rev. B 73 2006 115409
8. S.P. Ju, J.S. Lin, and W.J. Lee Nanotechnology 15 2004 1221
9. Z.G. Wang, X.T. Zu, L. Yang, F. Gao, and W.J. Weber Phys. Rev. B 76 2007 045310
10. E.P.M. Amorim, A.J.R. da Silva, and E.Z. da Silva J. Phys. Chem. C 112 2008 15241
11. D.L. Chen, and T.C. Chen Nanotechnology 16 2005 2972
12. S.K.R.S. Sankaranarayanan, V.R. Bhethanabotla, and B. Joseph Phys. Rev. B 76 2007 134117
13. Y.H. Wen, Z.Z. Zhu, and R.Z. Zhu Comput. Mater. Sci. 41 2008 553
14. W.W. Liang, and M. Zhou Nano Lett. 5 2005 2039
15. E.Z. da Silva Phys. Rev. B 69 2004 115411
16. A.J. Cao, and Y.G. Wei Phys. Rev. B 74 2006 214108
17. D.X. Wang, J.W. Zhao, S. Hu, X. Yin, S. Liang, Y.H. Liu, and S.Y. Deng Nano Lett. 7 2007 1208
18. J. Diao, K. Gall, and M.L. Dunn Nat. Mater. 2 2003 656
19. H.S. Park Nano Lett. 6 2006 958
20. X.F. Li, W.Y. Hu, S.F. Xiao, and W.Q. Huang Physica E 40 2008 3030
21. X.F. Li, W.Y. Hu, S.F. Xiao, and H.Q. Deng Chin. J. Nonferr. Met. 19 2009 1982
22. H.S. Park, and J.A. Zimmerman Phys. Rev. B 72 2005 054106
23. R. Komanduri, N. Chandrasekaran, and L.M. Raff Mater. Sci. Eng. A 340 2003 58
24. W.Y. Hu, X.L. Shu, and B.W. Zhang Comput. Mater. Sci. 23 2002 175
25. J.Y. Yang, W.Y. Hu, H.Q. Deng, and D.L. Zhao Surf. Sci. 572 2004 439
26. W.Y. Hu, and M. Fukumoto Modell. Simul. Mater. Sci. Eng. 10 2002 707
27. W.Y. Hu, H.Q. Deng, X.J. Yuan, and M. Fukumoto Eur. Phys. J. B 34 2003 429
28. W.Y. Hu, S.F. Xiao, J.Y. Yang, and Z. Zhang Eur. Phys. J. B 45 2005 547
29. S.F. Xiao, and W.Y. Hu J. Chem. Phys. 125 2006 014503
30. W.H. Luo, W.Y. Hu, and S.F. Xiao J. Chem. Phys. 128 2008 074710
31. R. Nunes, J.H. Adams, M. Ammons, et al., ASM Handbook, vol. 2, 10th ed., ASM International, Materials Park, OH, 1992.
32. J.D. Honeycutt, and H.C. Andersen J. Phys. Chem. 91 1987 4950
33. W.W. Liang, and M. Zhou J. Eng. Mater. Technol. 127 2005 423
34. Q. Cheng, H.A. Wu, Y. Wang, and X.X. Wang Appl. Phys. Lett. 95 2009 021911
35. J.S. Bowles, and C.M. Wayman Metall. Trans. 3 1972 1113