Improvement of technological properties of metal alloys by nonmonotonic plastic deformation

A. D. Khvan; Хван А. Д.; D. V. Khvan; Хван Д. В.; A. A. Sidorenko; Сидоренко А. А.

doi:10.31857/S086957332503104108

Improvement of technological properties of metal alloys by nonmonotonic plastic deformation

Authors: Khvan A.D.¹, Khvan D.V.², Sidorenko A.A.²
Affiliations:
1. Voronezh State University
2. Voronezh State Technical University
Issue: No 3 (2025)
Pages: 104-108
Section: Articles
URL: https://cardiosomatics.ru/0869-5733/article/view/688209
DOI: https://doi.org/10.31857/S086957332503104108
ID: 688209

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Abstract

The article considers the task of improving the technological properties of a material in order to improve the ultimate deformation under the action of tensile normal stresses. The solution of this problem is based on the model of anisotropic hardening by G. Backhouse. The necessary ratios have been obtained to optimize the process of improving the technological properties of the material. In order to experimentally verify the obtained solution to the problem under consideration, experiments were performed on thin-walled tubes under conditions of loading them in the tension-torsion – tension cycle, confirming with an accuracy of less than 90% the possibility of using the proposed method of increasing critical deformation in production conditions.

Keywords

anisotropy, stress deviator, stress intensity, accumulated deformation, localization of plastic deformation, axial stress, nonmonotonic loading, G. Backhouse model, critical deformation, loss of stability condition

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