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Effect of alloying elements on stacking fault energy of iron-base shape memory alloys

Effect of alloying elements on stacking fault energy of iron-base shape memory alloys JOURNAL OF MATERIALS SCIENCE LETTERS 18 (1999) 1669 – 1670 Effect of alloying elements on stacking fault energy of iron-base shape memory alloys J. C. LI, X. X. L U, Q. JIANG Department of Materials Science and Engineering, Jilin University of Technology, Changchun 130025, People’s Republic of China E-mail: jiangq@post.jut.edu.cn Iron-base shape memory alloys have attracted consid- action of Fe with Mn, Si, Cr and Ni, respectively. It has erable interest due to their good shape memory effects been reported [7–10] that 1G of Fe, Mn and Si are ¡1 ¡1 ¡1 (SME), low cost and excellent workability [1]. It has ¡247 J mol , 3474 J mol and 2206 J mol , respec- been reported [2–4] that Cr and Ni can improve the tively, at 300 K. From the effect of the alloying elements SME of Fe-Mn-Si alloys and can increase the corro- on the stability of fcc structure and hcp structure [5], sion resistance of the alloys. The SME of the alloys is the effect of the alloying elements on the stability of ° °=" associated with ° (fcc)!" (hcp) transformation and phase and " phase (1G ) can be expressed as: " (hcp)!° (fcc) transformation. The http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Journal of Materials Science Letters Springer Journals

Effect of alloying elements on stacking fault energy of iron-base shape memory alloys

Li, J.; Lü, X.; Jiang, Q.
Journal of Materials Science Letters , Volume 18 (20) – Sep 29, 2004
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References (3)

Publisher
Springer Journals
Copyright
Copyright © 1999 by Kluwer Academic Publishers
Subject
Materials Science; Characterization and Evaluation of Materials; Industrial Chemistry/Chemical Engineering; Polymer Sciences; Classical Mechanics
ISSN
0261-8028
eISSN
1573-4811
DOI
10.1023/A:1006617530533
Publisher site
See Article on Publisher Site

Abstract

JOURNAL OF MATERIALS SCIENCE LETTERS 18 (1999) 1669 – 1670 Effect of alloying elements on stacking fault energy of iron-base shape memory alloys J. C. LI, X. X. L U, Q. JIANG Department of Materials Science and Engineering, Jilin University of Technology, Changchun 130025, People’s Republic of China E-mail: jiangq@post.jut.edu.cn Iron-base shape memory alloys have attracted consid- action of Fe with Mn, Si, Cr and Ni, respectively. It has erable interest due to their good shape memory effects been reported [7–10] that 1G of Fe, Mn and Si are ¡1 ¡1 ¡1 (SME), low cost and excellent workability [1]. It has ¡247 J mol , 3474 J mol and 2206 J mol , respec- been reported [2–4] that Cr and Ni can improve the tively, at 300 K. From the effect of the alloying elements SME of Fe-Mn-Si alloys and can increase the corro- on the stability of fcc structure and hcp structure [5], sion resistance of the alloys. The SME of the alloys is the effect of the alloying elements on the stability of ° °=" associated with ° (fcc)!" (hcp) transformation and phase and " phase (1G ) can be expressed as: " (hcp)!° (fcc) transformation. The

Journal

Journal of Materials Science LettersSpringer Journals

Published: Sep 29, 2004

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