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Mechanism of formation of highly disperse titanium diboride

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  1. 1.

    T. I. Serebryakova, V. A. Neronov, and P. D. Peshev, High-Temperature Borides [in Russian], Metallurgiya, Moscow (1991).

  2. 2.

    G. V. Samsonov, T. I. Serebryakova, and V. A. Neronov, Borides [in Russian], Metallurgiya, Moscow (1975).

  3. 3.

    O. T. Khorpyakov, Yu. B. Paderno, and V. P. Dzeganov'skii, Standards for the X-Ray Diffraction Study of Hard and Refractory Alloys [in Ukrainian], Vid-vo Akad. Nauk URSR, Kiev (1961).

  4. 4.

    M. V. Akhmanova,“Use of IR absorption spectra to study the structure of natural borates,”Zh. Struct. Khim.,3, No. 1, 28–34 (1962).

  5. 5.

    I. I. Plyusnina and Yu. A. Kharitonov,“Crystallochemical features and infrared absorption spectra of borates and borosilicates,”Ibid.,4, No. 4, 555–568 (1963).

  6. 6.

    E. V. Vlasov and M. G. Valyashko,“Infrared absorption spectra of aqueous borates,”Zh. Neorg. Khim.,11, No. 7, 1539–1547 (1966).

  7. 7.

    A. M. Efimov, B. A. Mikhailov, and T. G. Arkatova,“Infrared spectra of borate glasses and their structural interpretation,”Fiz. Khim. Stekla,5, No. 6, 692–701 (1979).

  8. 8.

    V. A. Kolesova,“Vibrational spectra and structure of alkali-borate glasses,” Ibid.,12, No. 1, 4–13 (1986).

  9. 9.

    T. S. Bartnitskaya, M. V. Vlasova, T. Ya. Kosolanova, et al.,

  10. 10.

    M. V. Samoilov, A. S. Kotosonov, and B. G. Ostronov,“Use of EPR to study of features of the molecular structure of carbonized carbon-bearing materials,”Khim. Tverd. Topl., No. 3, 135–138 (1985).

  11. 11.

    J. R. Akse and H. B. Whitehurst,“Diffusion of titanium in slightly reduced rutile,”Phys. Rev.,175, 1091–1093 (1968).

  12. 12.

    V. V. Golubkov,“Structure of B2O2 and alkali borates in the glassy and molten states,”Fiz. Khim. Stekla,18, No. 2, 14–33 (1992).

  13. 13.

    V. V. Golubkov, A. P. Titov, and E. A. Porai-Koshits,“Structure of lithium-borate glasses according to low-angle x-ray diffraction,”Ibid.,18, No. 2, 46–62 (1991).

  14. 14.

    T. S. Bartnitskaya, M. V. Vlasova, V. I. Lyashenko, et al.,“Formation of highly disperse boron nitride with reduction by carbon in the presence of lithium compounds,”Poroshk. Metall., No. 1, 64–73 (1983).

  15. 15.

    T. Ya. Kosolapova, Carbides [in Russian], Metallurgiya, Moscow (1968).

  16. 16.

    S. Andersson, A. Sundholm, and A. Magneli,“A homologous series of mixed titanium chromium oxides Tin−2Cr2O2n−1 isomorphous with the series TinO2n−1 and VnO2n−1,”Acta Chem. Scand.,13, No. 5, 989–997 (1959).

  17. 17.

    S. Andersson, B. Collen, Knylenstierna, et al.,“Phase analysis studies on titanium-oxygen system,”Ibid.,11, No. 9, 1641–1652 (1957).

  18. 18.

    M. V. Vlasova, L. T. Domasevich, N. G. Kakazei, et al.,“Effect of the initial state of the components in the reduction of silica by carbon on the structure of the particles of silicon carbide,” Poroshk. Metall., No. 4, 87–97 (1993).

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Institute of Problems of Materials Science, National Academy of Sciences of the Ukraine, Kiev. Translated from Poroshkovaya Metallurgiya, No. 5–6, pp. 70–75, May–June, 1994.

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Vlasova, M.V., Serebryakova, T.I., Kilimnik, A.A. et al. Mechanism of formation of highly disperse titanium diboride. Powder Metall Met Ceram 33, 282–286 (1995). https://doi.org/10.1007/BF00560198

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  • Titanium
  • Titanium Diboride
  • Disperse Titanium
  • Disperse Titanium Diboride