On the stress dependence of partial dislocation separation and deformation microstructure in austenitic stainless steels

Acta Materialia

Volumn 51, Issue 11, 2003, Pages 3063-3071

  Byun, T S ^a  

^a OAK RIDGE NATIONAL LABORATORY   (United States)

Author keywords

Austenitic steels; Dislocation channels; Dislocations; Faults; Twinning

Indexed keywords

AUSTENITE; DISLOCATIONS (CRYSTALS); MICROSTRUCTURE; PLASTIC DEFORMATION; STACKING FAULTS; STRESS ANALYSIS; VECTORS;

PARTIAL DISLOCATION;

STAINLESS STEEL;

EID: 0037505629     PISSN: 13596454     EISSN: None     Source Type: Journal    
DOI: 10.1016/S1359-6454(03)00117-4     Document Type: Article

References (52)

1. Meyers M.A., Chawla K.K. Mechanical behavior of materials. 1998;Prentice-Hall Inc.
2. Hirth J.P., Lothe J. Theory of dislocations. 1968;McGraw-Hill Book Co.
3. Hertzberg R.W. Deformation and fracture mechanics of engineering materials. 1989;John Wiley & Sons Inc.
4. Goodchild D., Roberts W.T., Wilson D.V. Acta Met. 18:1970;1137.
5. Cottrell A.H. An introduction to metallurgy. 1975;Edward Arnold Inc.
6. Kelly A., Groves G.W. Crystallography and crystal defects. 1970;J.D. Arrowsmith, Ltd.
7. Müllner P. Mat Sci Eng. A234-236:1997;94.
8. Meyers M.A., Voehringer O., Chen Y.J. A constitutive description of the slip-twinning transition in metals. Ankem S., Pande C.S. Advances in twinning. 1999;43 The Minerals, Metals & Materials Society.
9. Christian J.W., Mahajan S. Prog Mater Sci. 39:1995;1.
10. Brooks J.W., Loretto M.H., Smallman R.E. Acta Met. 27:1979;1829.
11. Brooks J.W., Loretto M.H., Smallman R.E. Acta Met. 27:1979;1839.
12. Copley S.M., Kear B.H. Acta Met. 16:1968;227.
13. Gray G.T. III. Deformation twinning: Influence of strain rate. Yoo M.H., Wuttig M. Twinning in advanced materials. 1994;337 The Minerals, Metals & Materials Society.
14. Yoo M.H. Twinning and mechanical behavior. Westbrook J.H., Fleischer R.L. Intermetallic compounds. Principles and practice. Vol. 3:2002;403 John Wiley & Sons, Ltd.
15. Lee E.H., Byun T.S., Hunn J.D., Yoo M.H., Farrell K., Mansur L.K. Acta Mater. 49:2001;3269.
16. Lee E.H., Yoo M.H., Byun T.S., Hunn J.D., Farrell K., Mansur L.K. Acta Mater. 49:2001;3277.
17. Lee E.H., Byun T.S., Hunn J.D., Farrell K., Mansur L.K. J Nucl Mater. 296:2001;183.
18. Farrell K., Byun T.S., Hashimoto N. Mapping flow localization processes in deformation of irradiated reactor structural alloys. Report # ORNL/TM-2002/66. 2002;Oak Ridge National Laboratory.
19. Byun TS, Hunn JD, Farrell K. Plastic deformation in 316LN stainless steel - characterization of deformation microstructures, J Nucl Mater. (submitted for publication).
20. Hashimoto N., Zinkle S.J., Rowcliffe A.F., Robertson J.P., Jitsukawa S. J Nucl Mater. 283-287:2000;528.
21. Peach M.O., Koehler J.S. Phys Rev. 80:1950;436.
22. Kestenbach H.J. Phil Mag. 36:1977;1509.
23. Murr L.E. Interfacial phenomena in metals and alloys. 1975;Addision-Wesley Co.
24. Cottrell A.H. Theory of crystal dislocations. 1964;Gordon and Breach Science Inc.
25. Taylor G.I. J Inst Met. 62:1938;307.
26. Jin Z., Bieler T.R. Phil Mag A. 72:1995;1201.
27. Jin Z., Bieler T.R. Phil Mag A. 71:1995;925.
28. Jin Z., Bieler T.R. Mechanical twin propagation in TiAl. Yoo M.H., Wuttig M. Twinning in advanced materials. 1994;375 The Minerals, Metals & Materials Society.
29. Singh S.R., Howe J.M. Scripta Met Mater. 25:1991;485.
30. Singh S.R., Howe J.M. Phil Mag Lett. 65:1992;233.
31. Mitchell T.E., Hirth J.P. Acta Met Mater. 39:1991;1711.
32. Cohen J.B., Weertman J. Acta Met. 11:1963;996.
33. Fujita F., Mori T. Scripta Met. 9:1975;631.
34. Hirth J.P. Dislocation model for deformation twinning. Yoo M.H., Wuttig M. Twinning in advanced materials. 1994;107 The Minerals, Metals & Materials Society.
35. Cottrell A.H., Bilby B.A. Phil Mag. 42:1951;573.
36. Venables J.A. Phil Mag. 6:1961;379.
37. Niewczas N., Saads G. Phil Mag A. 82:2002;167.
38. Yoo M.H. Phil Mag Lett. 76:1998;259.
39. Couret A., Farenc S., Gaillard D., Coujou A. Twin nucleation, propagation and growth in TiAl. Yoo M.H., Wuttig M. Twinning in advanced materials. 1994;361 The Minerals, Metals & Materials Society.
40. Basinski Z.S., Szczerba M.S., Embury J.D. Dislocation mechanisms for twinning in BCC and FCC crystals. Yoo M.H., Wuttig M. Twinning in advanced materials. 1994;69 The Minerals, Metals & Materials Society.
41. Orowan E. Dislocations in metals. In: Cohen M, editor. AIME; 1954, p.116.
42. Yoo M.H. Phil Mag A. 63:1991;987.
43. Mahajan S., Chin G.Y. Acta Met. 21:1973;1353.
44. Lagerlöf K.P.D. A model describing deformation twinning in bcc metals. Yoo M.H., Wuttig M. Twinning in advanced materials. 1994;75 The Minerals, Metals & Materials Society.
45. Byun T.S., Farrell K., Lee E.H., Hunn J.D., Mansur L.K. J Nucl Mater. 298:2001;269.
46. Appel F., Wangner R.W. Slip-twin interactions in γ-titanium aluminides. Yoo M.H., Wuttig M. Twinning in advanced materials. 1994;317 The Minerals, Metals & Materials Society.
47. Sriram S., Viswanathan G.B., Vasudevan V.K. Effects of composition, deformation temperature and microstructure on twinning in TiAl-based alloys. Yoo M.H., Wuttig M. Twinning in advanced materials. 1994;383 The Minerals, Metals & Materials Society.
48. Yoo M.H. Intermetallics. 6:1998;597.
49. Wechsler MS., Dislocation channeling in irradiated and quenched metals. In: The inhomogeneity of plastic deformation. Metals Park (OH): Amer Soc for Metals; 1971, p.19.
50. Sharp J.V. Acta Met. 22:1974;449.
51. Sharp J.V. Phil Mag. 16:1967;77.
52. Makin M.J., Sharp J.V. Phys Stat Sol. 9:1965;109.