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Ferromagnetic NiMnGa and CoNiGa Shape Memory Alloy Films

Published online by Cambridge University Press:  15 March 2011

C. Craciunescu
Affiliation:
Department of Materials Science and Engineering, University of Maryland, College Park, MD 20742
Y. Kishi
Affiliation:
Department of Materials Science and Engineering, University of Maryland, College Park, MD 20742
L. Saraf
Affiliation:
Department of Materials Science and Engineering, University of Maryland, College Park, MD 20742
R. Ramesh
Affiliation:
Department of Materials Science and Engineering, University of Maryland, College Park, MD 20742
M. Wuttig
Affiliation:
Department of Materials Science and Engineering, University of Maryland, College Park, MD 20742
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Abstract

This paper reports results on Heusler-type NiMnGa and CoNiGa ferromagnetic shape memory alloy films deposited by magnetron sputtering and pulsed laser deposition respectively, on silicon cantilever-type substrates.

NiMnGa FMSMA films deposited by magnetron sputtering on silicon substrates show good ferromagnetic and shape memory properties if the substrate is heated above 350°C or if the films deposited at RT are annealed above 600°C. The growth of the film is columnar. TEM examination shows typical martensitic variants while the SAED pattern suggests an orthorhombic structure. CoNiGa FMSMA films deposited at 550°C by PLD are crystalline. Mechanical spectroscopy data proves the presence of a typical martensitic transformation that develops below room temperature: the phase transitions manifest themselves by typical changes of the modulus defect and displacement vs. temperature characteristics similar to those associated with the martensitic transformation in known shape memory alloy films.

The change in the elastic modulus as a function of the magnetic field suggests that in both NiMnGa and CoNiGa films the spontaneous magnetization is clamped by the magnetic anisotropy field.

Type
Research Article
Copyright
Copyright © Materials Research Society 2002

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References

1. RD, James, Wuttig, M, Phil. Mag. A. 1998;77:1273 Google Scholar
2. Kakeshita, T, Takeuchi, T, Tsujiguchi, T, Saburi, T, Oshima, R, Muto, S, Appl. Phys. Letters 2000; 77:1502 Google Scholar
3. PJ, Webster, KRA, Ziebeck, SL, Town, MS, Peak, Phil. Mag. 1984;49B:295 Google Scholar
4. IK, Zasimchuk, VV, Kokorin, VV, Martynov, AV, Tkachenko, VA, Chernenko, Fiz. Met. Metalloved. 1990;6:110 Google Scholar
5. Ulakko, K, Huang, J, Jantner, C., RC, O'Handley, VV, Kokorin, Appl. Phys. Letters 1996;69:1967 Google Scholar
6. RD, James, Wuttig, M, Proc. SPIE 1996;2715:420 Google Scholar
7. Tickle, R, RD, James, Shield, T, Wuttig, M, VV, Kokorin, IEEE Trans. Magnetics 1999;35:4301 Google Scholar
8. AN, Vasil'ev, AD, Bozhko, VV, Khovailo, IE, Dikshtein, IE, Shavrov, VD, Buchelnikov, Matsumoto, M, Suzuki, S, Takagi, T, Tani, J, Phys. Rev. 1999;B59:1113 Google Scholar
9. SJ, Murray, Marioni, M, SM, Allen, RC, O'Handley, TA, Lograsso, Appl. Phys. Lett. 2000;77:886 Google Scholar
10. Wang, Z, Iijima, T, He, G, Oikawa, K, Wulff, L, Sanada, N, Furuya, Y, Mat. Trans. JIM 2000;9;1139 Google Scholar
11. Kokorin, V; Wuttig, M, Journal of Magnetism and Magnetic Materials, vol.234, (2001)1, 25 Google Scholar
12. Tickle, R., James, R. D., Shield, T., Wuttig, M. and Kokorin, V. V.: IEEE Trans. Magnetics 35, (1999), 4301 Google Scholar
13. Wuttig, M, Li, J, Craciunescu, C., Scripta mater. 44 (2001); 2393 Google Scholar
14. Wuttig, M, Craciunescu, C., Li, J, Mat. Trans., JIM, Vol. 41, No. 8 (2000); 933 Google Scholar
15. Dong, J.W.; Chen, L.C.; McKernan, S.; Xie, J.Q.; Figus, M.T.; James, R.D.; Palmstrom, C.J., Materials for Smart Systems. Symposium, MRS Proceedings Vol. 604, (2000) 297,Google Scholar
16. Su, C.M., Wen, Y. and Wuttig, Manfred: J. De Physique 6, C8, (1996), 768 Google Scholar
17. Wuttig, M. and Su, C.M.: Proc. Symp. On Damping in Multiphase Inorganic Materials, Ed. By Bhagat, R.B., AMS, Metals Park, OH, (1993), pp.159163 Google Scholar
18. Saraf, L, Craciunescu, C., Piccoli, P, SB, Ogale, Wuttig, M, Ramesh, R, submitted to Appl. Phys. Lett.Google Scholar