Abstract
CEMS, XMS, XRD and electron microprobe analysis were applied to study electrode-posited and ion beam mixed Fe-Cr-Ni as well as electrodeposited and ball-milled Sn-Cr alloys. In Fe-Cr-Ni alloys with composition 40% Cr and 20–30% Ni a metastable ferromagnetic phase has been found beside a metastable paramagnetic and an equilibrium phase in all deposits. The relative occurrence of the ferromagnetic phase exhibits an increase in the plating temperature range: 30–40°C. With plating temperature an increase of the short-range order in the ferromagnetic phase was observed. The highenergy heavy ion irradiation of Fe-Ni-Cr multilayer produces ferromagnetic and paramagnetic metastable phases. The electrodeposition of Sn-Cr alloys results in metastable Sn-Cr phases. In the case of ball-milling preparation the equilibrium Sn3Cr2 phase (δ = 2.3 mm/s, Δ = 1.2 mm/s) appears in Sn-Cr alloys. The quantity of the Sn3Cr2 phase increases with the milling time.
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References
Kuzmann, E., Czakó-Nagy, I., Vértes, A., Chisholm, C. U., Watson, A., El-Sharif, M., Kerti, J. and Konczos, G., Hyp. Interact. 45 (1989), 397.
Kuzmann, E., Vértes, A., Chisholm, C. U., Watson, A., El-Sharif, M. and Anderson, A. M. H., Hyp. Interact. 54 (1990), 821.
Kuzmann, E., Vértes, A., Chibirova, F. Kh., Chisholm, C. U. and El-Sharif, M., Nucl. Instr. Meth. B 76(1993), 96.
Kuzmann, E., El-Sharif, M., Chisholm, C. U. and Vértes, A., J. Radional. Nucl Chem. 190 (1995), 327.
Kuzmann, E., El-Sharif, M., Chisholm, C. U., Principi, G., Tosello, C, Havancsák, K., Vértes, A., Nomura, K., Garg, V. K. and Takács, L., In: M. Miglierini and D. Petridis (eds), Mössbauer Spectroscopy in Materials Science, Kluwer, 1999, p. 203.
El-Sharif, M., Watson, A. and Chisholm, C. U, Trans. IMF 66 (1988), 34.
El-Sharif, M., Watson, A. and Chisholm, C. U., Trans. IMF 64 (1988), 149.
Klencsár, Z., Kuzmann, E. and Vértes, A., J. Radional. Nucl. Chem. Lett. 210 (1996), 105.
Perin, A., Gupta, R., Principi, G., Tosello, C., Gratton, L. M., Jannitti, E., Kuzmann, E. and Klencsár, Z., Surface and Coatings Technology 103–104 (1998), 93.
Kuzmann, E., Stichleutner, S., Principi, G., Tosello, C., Havancsak, K. and Vértes, A., Nucl. Instr. Meth. B 183 (2001), 425.
Flinn, P. A., Tin isomer Shifts, In: G. K. Shenoy and F. E. Wagner (eds), Mössbauer Isomer Shift, North-Holland, Amsterdam, 1978, p. 593.
Leiheiser, H., Czako, I., Varsanyi, M. L. and Vertes, A., J. Electrochem. Soc. 126 (1979), 204.
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Kuzmann, E. et al. (2002). Mössbauer Studies of Electrodeposited and Ion Beam Mixed Alloy Coatings. In: Cook, D.C., Hoy, G.R. (eds) Industrial Applications of the Mössbauer Effect. Springer, Dordrecht. https://doi.org/10.1007/978-94-010-0299-8_20
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DOI: https://doi.org/10.1007/978-94-010-0299-8_20
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