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Specific features of elastoplastic deformation and fracture of steels at complicated thermomechanical stress paths

  • Mechanics of Materials: Strength, Service Life, Safety
  • Published:
Inorganic Materials Aims and scope

Abstract

Regularities of cyclic elastoplastic deformation and fracture are studied on the basis of the damage accumulation parameter at increased and high temperatures considering the effect of cyclic changes in the material’s properties depending on the number of the cycles and the stressing time. The specific features of summation of fatigue and static fractures are analyzed in connection with combinations of cyclic and single modes of deformation in the thermomechanical stress paths.

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Authors and Affiliations

  1. Blagonravov Institute for Machine Science, Russian Academy of Sciences, Malyi Khariton’evskii per. 4, Moscow, 101990, Russia

    N. A. Makhutov & M. M. Gadenin

  2. OAO NIKIET Research and Development Institute of Energy Technology, Moscow, Russia

    S. V. Evropin

  3. South Urals State University, Chelyabinsk, Russia

    O. F. Chernyavskii, A. O. Chernyavskii & Yu. N. Rebyakov

Authors
  1. N. A. Makhutov
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  2. M. M. Gadenin
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  3. S. V. Evropin
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  4. O. F. Chernyavskii
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  5. A. O. Chernyavskii
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  6. Yu. N. Rebyakov
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Correspondence to N. A. Makhutov.

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Original Russian Text © N.A. Makhutov, M.M. Gadenin, S.V. Evropin, O.F. Chernyavskii, A.O. Chernyavskii, Yu.N. Rebyakov, 2013, published in Zavodskaya Laboratoriya. Diagnostika Materialov, 2013, Vol. 79, No. 1, pp. 48–58.

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Makhutov, N.A., Gadenin, M.M., Evropin, S.V. et al. Specific features of elastoplastic deformation and fracture of steels at complicated thermomechanical stress paths. Inorg Mater 50, 1495–1505 (2014). https://doi.org/10.1134/S0020168514150096

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  • DOI: https://doi.org/10.1134/S0020168514150096

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