Hostname: page-component-586b7cd67f-rdxmf Total loading time: 0 Render date: 2024-11-25T18:03:43.329Z Has data issue: false hasContentIssue false
  • English
  • Français

Localized Shear Deformation of Amorphous Metals

Published online by Cambridge University Press:  15 February 2011

J.C.M. Li
J.C.M. Li*
Affiliation:
Department of Mechanical Engineering, University of Rochester, Rochester, N.Y. 14627, U.S.A.
Get access

Abstract

The characteristics of localized deformation in amorphous metals are reviewed. All the available evidences seem to suggest that dislocations are responsible for shear localization. These dislocations seem to require a stress concentration for their nucleation. Once nucleated, they are capable of producing both forward and reverse shear in a narrow band, much like the dislocations in crystalline materials.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 8 , 1981 , 267
Copyright
Copyright © Materials Research Society 1982

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

1.Li, J.C.M., Scripta Met. 15, 2128 (1981).Google Scholar
2.Li, J.C.M., Fourth InternationalConference on Rapidly Quenched Metals,Sendai, Japan,1981, to be published.Google Scholar
3.Masumoto, T. and Maddin, R., Acta Met. 19, 725–41 (1971).10.1016/0001-6160(71)90028-9Google Scholar
4.Leamy, H.J., Chen, H.S. and Wang, T.T., Metall. Trans. 3, 699708 (1971).Google Scholar
5.Pampillo, C.A., Scripta Met. 6, 915918 (1972).Google Scholar
6.Pampillo, C.A. and Chen, H.S., Mat. Sci. Eng. 13, 181188 (1974).Google Scholar
7.Davis, L.A. and Kavesh, S., J. Mat. Sci. 10, 453459 (1975).Google Scholar
8.Chen, H.S., Leamy, H.J. and O'Brien, M.J., Scripta Met. 7, 415420 (1973).10.1016/0036-9748(73)90065-3Google Scholar
9.Pampillo, C.A., J. Mat. Sci. 10, 11941227 (1975).Google Scholar
10.Chen, H.S. and Polk, D.E., J. Noncrystall. Solids 15, 174178 (1974).Google Scholar
11.Takayama, S. and Maddin, R., Met. Trans. 7A, 1065–70 (1976).10.1007/BF02656588Google Scholar
12.Takayama, S. and Maddin, R., Acta Met. 23, 943–52 (1975).Google Scholar
13.Timizawa, S. and Masumoto, T., Sci. Rep. Res. Inst. Tohoku Univ. 26A, 263269 (1977).Google Scholar
14.Davis, L.A., “Metallic Glasses” (ASM Seminar, 1976, ASM 1978) pp. 190223.Google Scholar
15.Neuhäuser, H., Scripta Met. 12, 471–4 (1978).10.1016/0036-9748(78)90260-0Google Scholar
16.Donovan, P.E. and Stobbs, W.M., Acta Met. 29, 1419–36 (1981).10.1016/0001-6160(81)90177-2Google Scholar
17.Li, J.C.M., Metallic Glasses (ASM Seminar 1976, ASM, 1978) pp. 224–46.Google Scholar
18.Ast, D.C., private communication.Google Scholar
19.Takayama, S., private communication.Google Scholar
20.Maier, C.G., Trans. AIME 122, 121 (1936).Google Scholar
20aSee Darken, L.S. and Gurry, R.W.Physical Chemistry of Metals” (McGraw-Hill, 1953) p. 70.Google Scholar
21.Megusar, J., Argon, A.S. and Grant, N.J., paper F–I.8 this conference. See also same authors, paper 6.2(6) at the Fourth International Conference on Rapidly Quenched Metals, Sendai, Japan, Aug. 24–28, 1981.Google Scholar
22.Chau, C.C. and Li, J.C.M., J. Mat. Sci. in press.Google Scholar
23.Hadnagy, T.D., Krenisky, D.J., Ast, D.G. and Li, Che-Yu, Scripta Met. 12, 4548 (1978).Google Scholar
24.Taub, A.I. and Spaepen, F., Scripta Met. 13, 195–8 (1979).Google Scholar
25.Ahn, Tae-Moon and Li, J.C.M., Scripta Met. 14, 1057–60 (1980).Google Scholar
26.Chaudhari, P., Levi, A. and Steinhardt, P.J., Phys. Rev. Lett. 43, 1517–20 (1979).Google Scholar
27.Chaudhari, P. and Steinhardt, P.J., to be published.Google Scholar