Characteristic of the changes in magnetic properties of heat-treated steel at the early stages of cold plastic deformation by tensile strain

A. M. Matosyan; Матосян А. М.; A. P. Nichipuruk; Ничипурук А. П.; A. N. Stashkov; Сташков А. Н.; E. Y. Sazhina; Сажина Е. Ю.; N. V. Gordeev; Гордеев Н. В.; S. V. Afanasiev; Афанасьев С. В.

doi:10.31857/S0130308224090059

Characteristic of the changes in magnetic properties of heat-treated steel at the early stages of cold plastic deformation by tensile strain

Authors: Matosyan A.M.¹^,2, Nichipuruk A.P.¹, Stashkov A.N.¹, Sazhina E.Y.¹, Gordeev N.V.¹^,2, Afanasiev S.V.¹
Affiliations:
1. M.N. Mikheev lnstitute of Metal Physics of Ural Branch of Russian Academy of Sciences
2. Ural Federal University named after the first President of Russia B.N. Yeltsin
Issue: No 9 (2024)
Pages: 57-61
Section: По материалам XXXV Уральской конференции «Физические методы неразрушающего контроля (Янусовские чтения)»
URL: https://journals.rcsi.science/0130-3082/article/view/265151
DOI: https://doi.org/10.31857/S0130308224090059
ID: 265151

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Abstract
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Abstract

The present work establishes alloy steel 38KhS exhibits distinct features such as an inflection point and a second peak in the field dependencies of differential magnetic susceptibility only in samples with ε = 4 % and tempering temperatures of 650 and 700 °C, unlike annealed low-carbon steel. The absence of such characteristics on the χ_d(H) curves for samples with ε = 2 % and T_temp< 650 °C is likely due to the high level of randomly distributed internal stresses remaining after heat treatment. These stresses prevent the formation of an «easy plane» magnetic texture after plastic deformation by stretching.

Keywords

structural alloy steel, hardening, tempering, cold plastic deformation, residual mechanical stresses, magnetic properties, differential magnetic susceptibility, magnetic texture of «light plane» type

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About the authors

A. M. Matosyan

M.N. Mikheev lnstitute of Metal Physics of Ural Branch of Russian Academy of Sciences; Ural Federal University named after the first President of Russia B.N. Yeltsin

Author for correspondence.
Email: matosian01@gmail.com
Russian Federation, 620108 Yekaterinburg, S. Kovalevskaya str. 18; 620002 Yekaterinburg, Mira str. 19

A. P. Nichipuruk

M.N. Mikheev lnstitute of Metal Physics of Ural Branch of Russian Academy of Sciences

Email: matosian01@gmail.com
Russian Federation, 620108 Yekaterinburg, S. Kovalevskaya str. 18

A. N. Stashkov

M.N. Mikheev lnstitute of Metal Physics of Ural Branch of Russian Academy of Sciences

Email: matosian01@gmail.com
Russian Federation, 620108 Yekaterinburg, S. Kovalevskaya str. 18

E. Y. Sazhina

M.N. Mikheev lnstitute of Metal Physics of Ural Branch of Russian Academy of Sciences

Email: matosian01@gmail.com
Russian Federation, 620108 Yekaterinburg, S. Kovalevskaya str. 18

N. V. Gordeev

M.N. Mikheev lnstitute of Metal Physics of Ural Branch of Russian Academy of Sciences; Ural Federal University named after the first President of Russia B.N. Yeltsin

Email: matosian01@gmail.com
Russian Federation, 620108 Yekaterinburg, S. Kovalevskaya str. 18; 620002 Yekaterinburg, Mira str. 19

S. V. Afanasiev

M.N. Mikheev lnstitute of Metal Physics of Ural Branch of Russian Academy of Sciences

Email: matosian01@gmail.com
Russian Federation, 620108 Yekaterinburg, S. Kovalevskaya str. 18

References

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Stashkov A.N., Schapova E.A., Nichipuruk A.P., Korolev A.V. Magnetic incremental permeability as indicator of compression stress in low-carbon steel // NDT & E International. 2021. V. 118. P. 102398—102402. DOI: 10.1016/j. ndteint.2020.102398
Bhaawan Gupta, Tetsuya Uchimoto, Benjamin Ducharne, Gael Sebald, Takamichi Miyazaki, Toshiyuki Takagi. Magnetic incremental permeability non-destructive evaluation of 12 Cr-Mo-W-V steel creep test samples with varied ageing levels and thermal treatments // NDT & E International. 2019. V. 104. P. 42—50.
Nan Wang, Peng Li, Tuyan Li, Yujue Wang, Cunfu He, Xiucheng Liu. Quantitative characterization of tensile stress in electroplated nickel coatings with a magnetic incremental permeability sensor. Sensors and Actuators // A: Physical. 2024. V. 368. P. 115082.

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2. Figure 1. Dependences of coercive force (a) and initial magnetic permeability (b) on tempering temperature of initial and plastically deformed specimens from 38ХС steel with relative elongations of 0, 2 and 4 %.

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3. Figure 2. Field dependences of differential magnetic susceptibility of plastically deformed samples from 38CrC steel, pre-hardened and tempered at 500 °C (a, b), 600 °C (c, d), 650 °C (e, f) and 700 °C (g, h).

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