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Stability of intermetallic compounds under extreme actions

  • History of Metal Science. Department of Roentgenography and Physics of Metals (Moscow Institute of Steel and Alloys)
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Metal Science and Heat Treatment Aims and scope

Conclusions

  1. 1.

    The change in the crystal structure of the studied intermetallic compounds observed under different extreme actions (quenching from liquid state, ion irradiation, treatment in a ball mill) can be described as a change in the packing of close-packed layers (the formation of packing defects and polytypes in μ-, λ-, and ε-phases) or a change in the atomic ordering (ε, σ, Cr3Si type, andH-phase).

  2. 2.

    The relative stability of the crystalline state of intermetallic phases under high-energy actions is independent of the type of the action and is determined by the crystallochemical nature of the phase.

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References

  1. N. P. D'yakonova, E. V. Shelekhov, T. A. Sviridova, and A. A. Reznikov, “Qualitative x-ray phase analysis of weakly textured objects,”Zavod. Lab.,63 (10), 17–24 (1997).

    Google Scholar 

  2. E. V. Shelekhov, N. P. D'yakonova, T. A. Sviridova, et al., “Formation of polytype packing defects in the μ-phase upon rapid cooling of melts,”Fiz. Met. Metalloved.,79(3), 121–125 (1995).

    CAS  Google Scholar 

  3. T. A. Sviridova, N. P. Djakonova, E. V. Shelekhov, and Yu. A. Skakov, “X-ray powder diffraction study of multilayer polytypes formation induced by mechanical milling of Laves phases Co2+s Nb,” in:Mater. Sci. Forum. Vol. 321–324 (1999), pp. 647–652.

  4. Yu. A. Skakov, N. P. Djakonova, N. V. Edneral, et al., “Some peculiarities of the atomic structure of metallic phases formed during liquid quenching and solid state relations,”Mater. Sci. Eng.,A133, 560–564 (1991).

    Article  Google Scholar 

  5. Yu. A. Skakov, N. P. Djakonova, T. A. Sviridova, and E. V. Shelekhov, “High energy treatment of intermetallic compounds in the system Ni−Nb−V,”Proc. Mech. Alloyed. Metast. Nanocrystal. Mater., Mater. Sci. Forum,269–272, 595–600 (1998).

    Google Scholar 

  6. N. P. Djakonova, T. A. Sviridova, Yu. A. Skakov, and E. V. Shelekhov, “The atomic structure features of rapidly quenched, ion irradiated, and ball milled intermetallic compounds in Ni−Nb−V system,” in:Proc. XVII Conf. of Applied Crystallography (1997), pp. 287–293.

  7. N. P. D'yakonova, V. V. Savin, Yu. A. Skakov, et al., “Formation and stability of intermetallic phases in the Ni−Nb system upon alloying with Fe(Co) and nonequilibrium crystallization,” in:The Structure, Structural Transformations, and Magnetic Properties of Amorphous Metallic Alloys [in Russian], Metallurgiya, Moscow (1986), pp. 30–34.

    Google Scholar 

  8. N. P. Djakonova, T. A. Sviridova, Yu. A. Skakov, et al., “Study of the structure of Ni−Nb−V intermetallic compounds prepared by melt quenching,”Phys. Met. Metallogr.,87(6), 528–536 (1999).

    Google Scholar 

  9. Yu. A. Skakov, N. P. D'yakonova, and V. V. Savin, “Effect of the cooling rate of the melt on the structure of phases in the Fe−Co−Nb and Fe−Ni−Nb systems,”Izv. Vuzov, Chern. Met., No. 5, 85–90 (1984).

    Google Scholar 

  10. Yu. A. Skakov, N. P. D'yakonova, and V. V. Savin, “Phase states in the Fe−Co−Nb and Fe−Ni−Nb systems upon hardening under the conditions of rapid cooling and subsequent heating,” in:Stable and Metastable Phase Equilibria [in Russian], Nauka, Moscow (1985), p. 136.

    Google Scholar 

  11. Yu. A. Skakov, N. P. D'yakonova, V. A. Semina, et al., “Changes in the structure of some intermediate phases under the action of ion bombardment,”Ivz. Akad. Nauk. Met., No. 3, 151–156 (1993).

    Google Scholar 

  12. P. V. Aksenov, A. I. Rozanov, Yu. V. Tikhonov, et al., “Amorphization of alloys based on Ni−Nb under irradiation with He+ ions,”Fiz. Met. Metalloved.,64(5), 1021–1022 (1987).

    CAS  Google Scholar 

  13. P. V. Aksenov, A. I. Ryazanov, and Yu. V. Tikhonov,Stability of Amorphous Alloys of the Ni−Nb System under Irradiation with α-Particles in Charged-Particle Accelerators [in Russian], TSNIIatominform, Moscow (1989).

    Google Scholar 

  14. K. Sudzuki, H. Fudzimori, and K. Hasimoto,Amorphous Metals [Russian translation], Metallurgiya, Moscow (1987).

    Google Scholar 

  15. A. R. Yavari, J. L. Uriarte, and A. Inoue, “Volume effects in amorphization by rapid solidification and solid state reaction in bulk glass-forming alloys,”Proc. Mechan. Alloyed. Metast. Nanocrystal. Mater., Mater. Sci. Forum,269–272, 533–540 (1998).

    Google Scholar 

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Authors and Affiliations

  1. Moscow Institute of Steel and Alloys, Moscow, Russia

    N. P. D'yakonova, T. A. Sviridova, Yu. A. Skakov & E. V. Shelekhov

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  1. N. P. D'yakonova
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  2. T. A. Sviridova
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  3. Yu. A. Skakov
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  4. E. V. Shelekhov
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Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 8, pp. 32–36, August, 2000.

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D'yakonova, N.P., Sviridova, T.A., Skakov, Y.A. et al. Stability of intermetallic compounds under extreme actions. Met Sci Heat Treat 42, 326–330 (2000). https://doi.org/10.1007/BF02471309

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