Prevalence of shear banding in compression of Zr41Ti14Cu12.5Ni10Be22.5 pillars as small as 150 nm in diameter

Acta Materialia

Volumn 57, Issue 12, 2009, Pages 3562-3571

  Wu, X L ^a   Guo, Y Z ^b,c   Wei, Q ^b   Wang, W H ^d  

^a INSTITUTE OF MECHANICS   (China)

^b University of North Carolina at Charlotte   (United States)

^c NORTHWESTERN POLYTECHNICAL UNIVERSITY   (China)

^d INSTITUTE OF PHYSICS   (China)

Author keywords

Bulk metallic glasses; In situ transmission electron microscopy; Shear banding; Size effect

Indexed keywords

BULK METALLIC GLASS; BULK METALLIC GLASSES; COMPRESSIVE DUCTILITY; DISPLACEMENT BURST; DISPLACEMENT CONTROL; EX SITU; FINITE ELEMENT MODELING; GEOMETRY CONSTRAINTS; IN SITU TRANSMISSION ELECTRON MICROSCOPY; IN-SITU; IN-SITU COMPRESSION; LOAD CONTROL; LOAD DROPS; MECHANICAL BEHAVIOR; NANOPILLARS; NONUNIFORM STRESS DISTRIBUTION; RESEARCH GROUPS; SHEAR BANDING; SIZE DEPENDENCE; SIZE EFFECT; SPECIMEN LENGTH; STRESS STATE; TEM; YIELD STRENGTH;

ELECTRON MICROSCOPES; EXPERIMENTS; GLASS; HYDROSTATIC PRESSURE; IN SITU PROCESSING; LIQUID METALS; MECHANICAL ENGINEERING; PLANTS (BOTANY); PLASTIC DEFORMATION; STRESS CONCENTRATION; TRANSMISSION ELECTRON MICROSCOPY; ZIRCONIUM;

METALLIC GLASS;

EID: 65849195735     PISSN: 13596454     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.actamat.2009.04.013     Document Type: Article

References (63)

1. Schuster B.E., Wei Q., Ervin M.H., Hruszkewycz S., Miller M.K., Hufnagel T.C., et al. Scripta Mater 57 (2007) 517
2. Schuster B.E., Wei Q., Hufnagel T.C., and Ramesh K.T. Acta Mater 56 (2008) 5091
3. Shan Z.W., Li J., Cheng Y.Q., Minor A.M., Asif S.A.S., Warren O.L., et al. Phys Rev B 77 (2008) 155419
4. Volkert C.A., Donohue A., and Spaepen F. J Appl Phys 103 (2008) 083539
5. Lee C.J., Huang J.C., and Nieh T.G. Appl Phys Lett 91 (2007) 161913
6. Lai Y.H., Lee C.J., Cheng Y.T., Chou H.S., Chen H.M., Du X.H., et al. Scripta Mater 58 (2008) 890
7. Huang Y.J., Shen J., and Sun J.F. Appl Phys Lett 90 (2007) 081919
8. Schuster BE. Micro-Pillar Compression of Nanocrystalline and Amorphous Metals. Mechanical Engineering, vol. Ph.D. Baltimore: The Johns Hopkins University, 2008. p.186.
9. Uchic M.D., Dimiduk D.M., Florando J.N., and Nix W.D. Science 305 (2004) 986
10. Greer J.R., Oliver W.C., and Nix W.D. Acta Mater 53 (2005) 1821
11. Volkert C.A., and Lilleodden E. Philos Mag 86 (2006) 5567
12. Guo H., Yan P.F., Wang Y.B., Tan J., Zhang Z.F., Sui M.L., et al. Nature Mater 6 (2007) 735
13. Schuh C.A., Hufnagel T.C., and Ramamurty U. Acta Mater 55 (2007) 4067
14. Chen H.S. Scripta Metall 7 (1973) 931
15. Falk M.L. Phys Rev B 60 (1999) 7062
16. Falk M.L., and Langer J.S. Phys Rev E 57 (1998) 7192
17. Peker A., and Johnson W.L. Appl Phys Lett 63 (1993) 2342
18. Lu J., Ravichandran G., and Johnson W.L. Acta Mater 51 (2003) 3429
19. Wright W.J., Schwarz R.B., and Nix W.D. Mater Sci Eng A 319-321 (2001) 229
20. Jiang M.Q., Ling Z., Meng J.X., and Dai L.H. Philos Mag 88 (2008) 407
21. Raghavan R., Murali P., and Ramamurty U. Intermetallics 14 (2006) 1051
22. Murali P., and Ramamurty U. Acta Mater 53 (2005) 1467
23. Bruck H.A., Christman T., Rosakis A.J., and Johnson W.L. Scripta Metall Mater 30 (1994) 429
24. Schuh C.A., Lund A.C., and Nieh T.G. Acta Mater 52 (2004) 5879
25. Li Q.K., and Li M. Appl Phys Lett 91 (2007) 231905
26. Johnson W.L., and Samwer K. A Phys Rev Lett 95 (2005) 195501
27. Bei H., Shim S., Miller M.K., Pharr G.M., and George E.P. Appl Phys Lett 91 (2007) 111915
28. Zhang Y., Zhao D.Q., Wang R.J., and Wang W.H. Acta Mater 51 (2003) 1971
29. Lu J., Ravichandran G., and Johnson W.L. Acta Mater 51 (2001) 3429
30. Fan C., Ott R.T., and Hufnagel T.C. Appl Phys Lett 81 (2002) 1020
31. Hufnagel T.C., Fan C., Ott R.T., Li J., and Brennan S. Intermetallics 10 (2002) 1163
32. Lutz E.H., Claussen N., and Swain M.V. J Am Ceram Soc 74 (1991) 11
33. Zhang H., Schuster B.E., Wei Q., and Ramesh K.T. Scripta Mater 64 (2006) 181
34. Wright T.W. The physics and mathematics of adiabatic shear bands (2002), Cambridge University Press, Cambridge
35. Yang Y., Ye J.C., Lu J., Liu F.X., and Liaw P.K. Acta Mater 57 (2008) 1613
36. Kiener D., Motz C., and Dehm G. Mater Sci Eng A 505 (2009) 79
37. Wu F.F., Zhang Z.F., and Mao S.X. J Mater Res 22 (2007) 501
38. Liu Y.H., Wang G., Wang R.J., Zhao D.Q., Pan M.X., and Wang W.H. Science 315 (2007) 1385
39. Liu C.T., Heatherly L., Easton D.S., Carmichael C.A., Schneibel J.H., Chen C.H., et al. Metall Mater Trans A 29 (1998) 1811
40. Sunny G., Lewandowski J., and Prakash V. J Mater Res 22 (2007) 389
41. Lewandowski J.J., and Lowhaphandu P. Philos Mag A 82 (2002) 3427
42. Wu W.F., Li Y., and Schuh C.A. Philos Mag 88 (2008) 71
43. Jiang W.H., Fan F.J., Choo H., and Liaw P.K. Mater Lett 60 (2006) 3537
44. Zhang Z.F., Zhang H., Pan X.F., Das J., and Eckert J. Philos Mag Lett 85 (2005) 513
45. Yu P., Bai H.Y., Zhao J.G., Jin C.Q., and Wang W.H. Appl Phys Lett 90 (2007) 051906
46. Patnaik M.N.M., Narasimhan R., and Ramamurty U. Acta Mater 52 (2004) 3335
47. Keryvin V., Prasad K.E., Gueguen Y., Sanglebauf J.-C., and Ramamurty U. Philos Mag 88 (2008) 1773
48. Tabor D. The hardness of metals (1951), Clarendon Press, Oxford
49. Hart E.W. Acta Metall 18 (1970) 599
50. Bai Y., and Dodd B. Adiabatic shear localization (1992), Pergamon Press, Oxford
51. Hart E.W. Acta Metall 15 (1967) 351
52. Lin I.H., Hirth J.P., and Hart E.W. Acta Metall 29 (1981) 819
53. Hufnagel T.C., Jiao T., Li Y., Xing L.Q., and Ramesh K.T. J Mater Res 17 (2002) 1441
54. Bruck H.A., Rosakis A.J., and Johnson W.L. J Mater Res 11 (1996) 503
55. Dubach A., Torre F.H.D., and Loffler J.F. Philos Mag Lett 87 (2007) 695
56. Li H., Subhash G., Gao X.L., Kecskes L.J., and Dowding R.J. Scripta Mater 49 (2003) 1087
57. Sunny G., Yuan F.P., Prakash V., and Lewandowski J. Appl Phys Lett 104 (2008) 093522
58. Lewandowski J.J., Wang W.H., and Greer A.L. Philos Mag Lett 85 (2005) 77
59. Poon S.J., Zhu A.W., and Shiflet G.J. Appl Phys Lett 92 (2008) 261902
60. Na J.H., Park E.S., Kim Y.C., Fleury E., Kim W.T., and Kim D.H. J Mater Res (2008) 23 523
61. Kelly A., Tyson W.R., and Cottrell A.H. Philos Mag 15 (1967) 567
62. Kumar G., Tang H.X., and Schroers J. Nature 457 (2009) 868
63. Schroers J. JOM 57 (2005) 35