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Russian Chemical Reviews, 2001, Volume 70, Issue 1, Pages 45–63
DOI: https://doi.org/10.1070/RC2001v070n01ABEH000598 (Mi rcr735) 		 
This article is cited in 47 scientific papers (total in 47 papers)

Mechanochemical synthesis of intermetallic compounds

T. F. Grigorieva, A. P. Barinova, N. Z. Lyakhov

Institute of Solid State Chemistry and Mechanochemistry, Siberian Branch of the Russian Academy of Sciences, Novosibirsk
English full-text Citations (47) Russian version article
DOI: https://doi.org/10.1070/RC2001v070n01ABEH000598
Abstract: The current state of studies on the mechanochemical synthesis of binary metallic systems is considered. It is shown that this method is suitable for the preparation of intermetallic compounds and solid solutions in concentration limits of equilibrium diagrams of many binary systems. The mechanochemical approach is demonstrated to exhibit the most promise for preparing intermetallic compounds in systems characterised by large differences in the melting points and in the densities of the initial components as well as phases with nanometer grain sizes and metastable phases. The major factors, which influence the concentration limits of existence of non-equilibrium solid solutions prepared by the mechanochemical method, are revealed. Using numerous examples, it is demonstrated that the formation of solid solutions may involve several stages. At the first stage, nanosized layered composite structures are formed with simultaneous dispersion of the initial components (the formation of a large contact area). The second stage involves the synthesis of intermetallic compounds in nanosized layered composites. At the third step, the intermetallic compounds are dissolved in a metal solvent to give a solid solution. The bibliography includes 397 references.
Received: 24.04.2000
Bibliographic databases:
Document Type: Article
UDC: 54.188
Language: English
Original paper language: Russian


Citation: T. F. Grigorieva, A. P. Barinova, N. Z. Lyakhov, “Mechanochemical synthesis of intermetallic compounds”, Usp. Khim., 70:1 (2001), 52–71; Russian Chem. Reviews, 70:1 (2001), 45–63
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  • https://doi.org/10.1070/RC2001v070n01ABEH000598
  • https://www.mathnet.ru/eng/rcr/v70/i1/p52
    • This publication is cited in the following 47 articles:
    1. Anna G. Matveeva, Tatiana S. Skripkina, Vyacheslav M. Nekrasov, Uliana E. Nikiforova, Vladimir A. Bukhtoyarov, Aleksey Bychkov, Igor Lomovskiy, Powder Technology, 449 (2025), 120370  crossref
    2. Adit Sharma, Vladislav Yu. Zadorozhnyy, Aamir Shahzad, Artem A. Korol, Sergey D. Kaloshkin, J.C. Qiao, Journal of Alloys and Compounds, 2025, 179964  crossref
    3. Ilya N. Kryzhanovskii, Maxim N. Temnikov, Anton A. Anisimov, Andrey K. Ratnikov, Inga V. Frank, Mikhail V. Shishkanov, Ulyana S. Andropova, Alexander V. Naumkin, Sergey M. Chistovalov, Aziz M. Muzafarov, Ind. Eng. Chem. Res., 63:5 (2024), 2153  crossref
    4. Aybike Paksoy, Seyedehnegar Arabi, Özge Balcı-Çağ{\i}ran, Mechanical Alloying of Ferrous and Non-Ferrous Alloys, 2024, 59  crossref
    5. K.V. Suliz, A.Yu. Kolosov, V.S. Myasnichenko, N.I. Nepsha, N.Yu. Sdobnyakov, A.V. Pervikov, Advanced Powder Technology, 33:3 (2022), 103518  crossref
    6. Oleg Lapshin, Oksana Ivanova, Powder Technology, 404 (2022), 117419  crossref
    7. G. A. Pribytkov, A. V. Baranovskii, V. V. Korzhova, I. A. Firsina, E. N. Korosteleva, Combustion, Explosion and Shock Waves, 58:6 (2022), 688–695  mathnet  mathnet  crossref  crossref
    8. Serguei Tikhov, Konstantin Valeev, Svetlana Cherepanova, Vladimir Zaikovskii, Aleksei Salanov, Vladislav Sadykov, Dina Dudina, Oleg Lomovsky, Sergey Petrov, Oleg Smorygo, Amol Gokhale, Materials, 15:6 (2022), 2087  crossref
    9. Pervikov A.V., Lozhkomoev A.S., Bakina O.V., Lerner M.I., Russ. Phys. J., 63:9 (2021), 1557–1561  crossref  isi  scopus
    10. Vadchenko S.G. Busurina M.L. Suvorova E.V. Mukhina N.I. Kovalev I.D. Sychev A.E., Combust. Explos., 57:1 (2021), 53–59  crossref  isi  scopus
    11. Novitskii A. Serhiienko I. Nepapushev A. Ivanova A. Sviridova T. Moskovskikh D. Voronin A. Miki H. Khovaylo V., Intermetallics, 133 (2021), 107195  crossref  isi
    12. Grigoreva T.F., Petrova S.A., Kovaleva S.A., Kiseleva T.Yu., Zholudev I S., Vosmerikov S.V., Udalova T.A., Devyatkina E.T., Polyakov S.N., Lyakhov N.Z., Phys. Metals Metallogr., 122:4 (2021), 370–375  crossref  isi
    13. Grigoreva T.F., Kiseleva T.Yu., Petrova S.A., Talako T.L., Vosmerikov S.V., Udalova T.A., Devyatkina E.T., Novakova A.A., Lyakhov N.Z., Phys. Metals Metallogr., 122:6 (2021), 572–578  crossref  isi  scopus
    14. Pervikov V A., Kazantsev S.O., Lozhkomoev A.S., Lerner I M., Powder Technol., 372 (2020), 136–147  crossref  isi  scopus
    15. Muratovic S., Karadeniz B., Stolar T., Lukin S., Halasz I., Herak M., Mali G., Krupskaya Yu., Kataev V., Zilic D., Uzarevic K., J. Mater. Chem. C, 8:21 (2020), 7132–7142  crossref  isi  scopus
    16. Pervikov V A., Suliz V K., Lerner I M., Powder Technol., 360 (2020), 855–862  crossref  isi  scopus
    17. Nakonechna O.I., Dashevskyi M.M., Boshko O.I., Zavodyannyi V.V., Belyavina N.N., Usp. Fiz. Metallov, 20:1 (2019), 5–51  crossref  isi  scopus
    18. Nepapushev A.A., Buinevich V.S., Gallington L.C., Pauls J.M., Orlova T., Miloserdova O.M., Chapysheva N.V., Rogachev A.S., Mukasyan A.S., Ceram. Int., 45:18, A (2019), 24818–24826  crossref  isi  scopus
    19. Rogachev A.S., Russ. Chem. Rev., 88:9 (2019), 875–900  mathnet  crossref  isi  scopus
    20. Alexander Pervikov, Anton Khrustalyov, Andrey Filippov, Yuri Mironov, Aleksander Lozhkomoev, Marat Lerner, Sergei Tarasov, Metals, 9:12 (2019), 1287  crossref
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