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Structural effects in secondary ion emission of Fe-30.2%Ni and Fe-36%Ni invar alloys

  • Proceedings of the Conference “Methods for Studying the Composition and Structure of Functional Materials” October 21–25, 2013, Novosibirsk
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Abstract

Experimentally, in the range of 300–700 K, the temperature dependences of secondary ion emission (SIE) for iron-nickel alloys with nickel content of 30.2 % and 36 % are studied by secondary ion mass spectrometry. The observable changes in SIE for iron and nickel ions in the neighborhood of the Curie point are due to magnetic transition, which we hold to be a first-order phase transition. The influence of carbon contained in the alloys manifests itself in the form of SIE peaks at 530–630 K.

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References

  1. A. I. Khomenko, Fizika Metallov i Metallovedenie, 104, 155 (2007).

    CAS  Google Scholar 

  2. V. M. Kalinin, F. N. Dunaev, and V. A. Kornyakov, Izv. Vuzov, No. 5, 129 (1970).

    Google Scholar 

  3. K. Uhlman, C. Bardehle, St. Baunack, and F. Storbeck, Crystal. Res. & Technol., 20, No. 2, 227 (1985).

    Article  Google Scholar 

  4. S. P. Chenakin, Appl. Surface Sci., 1 (1995).

    Google Scholar 

  5. C. R. Brundle, AIP Conf. Production, 61, 57 (1980).

    Article  CAS  Google Scholar 

  6. G. T. Dubovka, Phys. Stat. Sol. A, 59, k35 (1980).

    Article  CAS  Google Scholar 

  7. M. R. Gallas and J. A. H. da Jornada, J. Phys.: Condens. Matter., 3, 155 (1991).

    CAS  Google Scholar 

  8. M. Matsushita, S. Endo, K. Miura, and F. Ono, J. Magn. Magn. Mater., 265, 352 (2003).

    Article  CAS  Google Scholar 

  9. L. V. Barabash, A. I. Zacharov, S. V. Zemskii, and V. I. Pokhmurskii, Fiz.-Khim. Mech. Mater., 18, No. 2, 59 (1978).

    Google Scholar 

  10. M. C. Cadeville and E. P Wohlfarth, Phys. Stat. Sol. A, 26, K157 (1974).

    Article  CAS  Google Scholar 

  11. R. J. Weiss, Proc. Phys. Soc., 82, 281 (1963).

    Article  Google Scholar 

  12. E. F. Wasserman (ed.), Invar, anti-invar effect: finally understood after 100 year? A central symposium: The invar effect, Wittenhauer, TMS, California (1997), p. 53.

    Google Scholar 

  13. A. N. Baranov, A. L. Katsnelson, and A. F. Tatarchenko, Fizika Metallov i Metallovedenie, 85, No. 5, 5 (1998).

    CAS  Google Scholar 

  14. V. Crisan, P. Entel, H. Ebert, et al., Phys. Rev., 66, 014116 (2002).

    Article  Google Scholar 

  15. V. E. Yurasova, V. T. Cherepin, and Yu. A. Ryzhov, J. Surf. Inv., No. 5, 63 (2011).

    Google Scholar 

  16. V. E. Yurasova, Vacuum, 36, 435 (1986).

    Article  Google Scholar 

  17. V. E. Yurasova, Interaction of Charged Particles with Solids, Surfaces, Plenum Press, NY (1991).

    Google Scholar 

  18. V. P. Ivanov and S. N. Trukhan, React. Kinet. Catal. Lett., 55, No. 1, 111 (1995).

    Article  CAS  Google Scholar 

  19. R. R. Mulyukov, I. Kh. Bitkulov, and K. A. Bukreeva, Letters on Materials, 1, 70 (2011).

    Google Scholar 

  20. V. I. Bachurin, V. S. Chernysh, A. V. Shirkov, and A. Yu. Shmelev, Poverkhnost’, No. 6 70 (1982).

    Google Scholar 

  21. V. A. Abramenko, A. A. Andreev, G. A. Dubsky, M. V. Kuvakin, L. B. Shelyakin, H. Motaweh, and V. E. Yurasova, Nucl. lnstrum. Methods, B13, 609 (1986).

    Article  CAS  Google Scholar 

  22. S. S. Elovikov, U. Yu. Zykova, D. A. Konov, L. B. Shelyakin, and V. E. Yurasova, J. Surf. Inv., No. 7, 55 (2006).

    Google Scholar 

  23. G. V. Adamov, V. M. Bukhanov, J. S. Colligon, K. F. Minnebaev, A. A. Nasretdinov, L. B. Shelyakin, V. E. Yurasova, and E. Y. Zykova, Vacuum, 73, 47 (2004).

    Article  CAS  Google Scholar 

  24. N. P. Grazhdankina, Physics-Uspekhi, 96, No. 2, 291 (1968).

    CAS  Google Scholar 

  25. P. Gloria, D. Martinez-Blanco, M. J. Perez, J. A. Blanco, et al., Phys. Rev. B, 80, 06442 (2009).

    Google Scholar 

  26. M. Acet, T. Schneider, H. Zähres, E. F. Wasserman, and W. Pepperhoff, J. Appl. Phys., 75, 7015 (1994).

    Article  CAS  Google Scholar 

  27. T. Schneider, M. Acet, B. Rellinghaus, E.F. Wasserman, and W. Pepperhoff, Phys. Rev. B, 51, 8917 (1995).

    Article  CAS  Google Scholar 

  28. V. M. Nadutov, T. V. Golub, and O. V. Hymenyuk, Functional Mater., 11, No. 3, 496 (2004).

    CAS  Google Scholar 

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Authors and Affiliations

  1. Boreskov Institute of Catalysis, Siberian Branch, Russian Academy of Sciences, Novosibirsk, Russia

    V. P. Ivanov & S. N. Trukhan

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  1. V. P. Ivanov
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  2. S. N. Trukhan
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Correspondence to V. P. Ivanov.

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Original Russian Text © 2014 V. P. Ivanov, S. N. Trukhan.

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Translated from Zhurnal Strukturnoi Khimii, Vol. 55, No. 5, pp. 1039–1043, September–October, 2014.

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Ivanov, V.P., Trukhan, S.N. Structural effects in secondary ion emission of Fe-30.2%Ni and Fe-36%Ni invar alloys. J Struct Chem 55, 995–999 (2014). https://doi.org/10.1134/S002247661405031X

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  • DOI: https://doi.org/10.1134/S002247661405031X

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