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Substructure formation in high-strength dispersely strengthened alloys

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Conclusions

Analysis of new experimental laws of plastic flow observed in high-strength alloys with dispersional strengthening (such as the formation of substructure with high crystal-lattice curvature, high-temperature localization of deformation from the earliest stages, with reorientation of the localized-shear zones and the adjacent undeformed structural elements) leads to the conclusion that deformational point defects play an important role in the realization of collective deformational modes in the high-strength state.

In conditions of high nonequilibrium concentration, deformational point defects, first, permit the inclusion of quasi-viscous diffusional mechanisms of crystal-lattice reorientation by point-defect drift in the local fields of high inhomogeneous stress and, second, by facilitating dislocational deformation mechanisms, may lead to local weakening of the shear zones, localization of the plastic flow, and stability loss, in particular, as a result of mutually consistent autocatalytic defect multiplication.

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Authors and Affiliations

  1. V. D. Kuznetsov Siberian Physicotechnical Institute, Tomsk State University, USSR

    A. D. Korotaev, A. N. Tyumentsev, V. Ch. Gonchikov & A. I. Olemskoi

Authors
  1. A. D. Korotaev
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  2. A. N. Tyumentsev
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  3. V. Ch. Gonchikov
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  4. A. I. Olemskoi
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Translated from Izvestiya Vysshikh Uchebnykh Zavedenii, Fizika, No. 3, pp. 81–92, March, 1991.

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Korotaev, A.D., Tyumentsev, A.N., Gonchikov, V.C. et al. Substructure formation in high-strength dispersely strengthened alloys. Soviet Physics Journal 34, 244–252 (1991). https://doi.org/10.1007/BF00894928

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