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The use of self-propagating high-temperature synthesis and argon-arc overlaying when strengthening the surface of products made of titanium alloys

  • Structural Macrokinetics. Self-Propagating High-Temperature Synthesis
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Russian Journal of Non-Ferrous Metals Aims and scope Submit manuscript

Abstract

A new method for the deposition of protective coatings (wear-resistant overlaying) that are 2 to 10 mm thick and more on the surface of titanium articles is suggested, developed, approved, and patented. The method, called “SHS-arc overlaying,” combines the exothermic synthesis of adding material (AM) and argon-arc overlaying, which proceed simultaneously with the deposition of the coating. AMs made of exothermic mixtures are developed. Using this new method, protective composite coatings for titanium articles are obtained. The physicochemical, microstructural, and exploitation properties of the overlaying are investigated. Its operational characteristics exceed the characteristics of standard samples by a factor of 1.5–2.0. This new technology can be recommended for the deposition of protective coatings on products of wide indentation made of titanium alloys.

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Authors and Affiliations

  1. Institute of Structural Macrokinetics and Material Sciences, Russian Academy of Sciences, ul. Institutskaya 8, Chernogolovka, Moscow oblast, 142432, Russia

    V. L. Kvanin, N. T. Balikhina & A. G. Merzhanov

  2. OAO Kaluga Turbine Plant, ul. Glagoleva 32, Kaluga, 248021, Russia

    V. G. Karabakhin

Authors
  1. V. L. Kvanin
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  2. N. T. Balikhina
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  3. A. G. Merzhanov
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  4. V. G. Karabakhin
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Corresponding author

Correspondence to V. L. Kvanin.

Additional information

Original Russian Text © V.L. Kvanin, N.T. Balikhina, A.G. Merzhanov, V.G. Karabakhin, 2012, published in Izvestiya VUZ. Tsvetnaya Metallurgiya, 2012, No. 2, pp. 46–52.

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Kvanin, V.L., Balikhina, N.T., Merzhanov, A.G. et al. The use of self-propagating high-temperature synthesis and argon-arc overlaying when strengthening the surface of products made of titanium alloys. Russ. J. Non-ferrous Metals 53, 155–162 (2012). https://doi.org/10.3103/S1067821212020083

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  • DOI: https://doi.org/10.3103/S1067821212020083

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