Influence of volume and surface strengthening on the scale deformation levels of low-alloyed steel

Abstract

Plastic deformation, in common case, proceeds the mutual co-ordination on different scale levels. The tension concentrators and possibility of spreading the lines of localized deformation of corresponding scale level for deformation realization on this level. Both of them are determined by a great number of factors. In this work the influence of structure dimensions the surface state on deformation localization on 12X1M steel mesoscale level was investigated. The dimensions of inside structure were varied by thermal processing condition and the surface state was varied by processing in nitrogen containing glow discharge plasma. It was shown that by increasing the small-grain samples plastic deformation takes place by spreading localized deformation mesobands from the initial mesoconcentrators. By stretching it takes place by Luders' line shifting. By compressing it takes place by forming the mesolines system of localized deformation in the connected directions of maximum tangential stress. In both cases insignificant volume of materials is involved.

Original language	English
Title of host publication	5th Korea-Russia International Symposium on Science and Technology - Proceedings: KORUS 2001
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	274-277
Number of pages	4
Volume	1
ISBN (Print)	0780370082, 9780780370081
DOIs	https://doi.org/10.1109/KORUS.2001.975122
Publication status	Published - 2001
Event	5th Korea-Russia International Symposium on Science and Technology, KORUS 2001 - Tomsk, Russian Federation Duration: 26 Jun 2001 → 3 Jul 2001

Other

Other	5th Korea-Russia International Symposium on Science and Technology, KORUS 2001
Country	Russian Federation
City	Tomsk
Period	26.6.01 → 3.7.01

Keywords

localization of deformation
mesomechanics

ASJC Scopus subject areas

Clinical Biochemistry
Computer Networks and Communications
Biotechnology
Civil and Structural Engineering
Mechanics of Materials
Electronic, Optical and Magnetic Materials
Materials Chemistry
Surfaces, Coatings and Films

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10.1109/KORUS.2001.975122

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Panin, V. E., Slosman, A. I., Antipina, N. A., Ovechkin, B. B., & Litvinenko, A. V. (2001). Influence of volume and surface strengthening on the scale deformation levels of low-alloyed steel. In 5th Korea-Russia International Symposium on Science and Technology - Proceedings: KORUS 2001 (Vol. 1, pp. 274-277). [975122] Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/KORUS.2001.975122

Influence of volume and surface strengthening on the scale deformation levels of low-alloyed steel. / Panin, V. E.; Slosman, A. I.; Antipina, N. A.; Ovechkin, B. B.; Litvinenko, A. V.

5th Korea-Russia International Symposium on Science and Technology - Proceedings: KORUS 2001. Vol. 1 Institute of Electrical and Electronics Engineers Inc., 2001. p. 274-277 975122.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Panin, VE, Slosman, AI, Antipina, NA, Ovechkin, BB & Litvinenko, AV 2001, Influence of volume and surface strengthening on the scale deformation levels of low-alloyed steel. in 5th Korea-Russia International Symposium on Science and Technology - Proceedings: KORUS 2001. vol. 1, 975122, Institute of Electrical and Electronics Engineers Inc., pp. 274-277, 5th Korea-Russia International Symposium on Science and Technology, KORUS 2001, Tomsk, Russian Federation, 26.6.01. https://doi.org/10.1109/KORUS.2001.975122

Panin VE, Slosman AI, Antipina NA, Ovechkin BB, Litvinenko AV. Influence of volume and surface strengthening on the scale deformation levels of low-alloyed steel. In 5th Korea-Russia International Symposium on Science and Technology - Proceedings: KORUS 2001. Vol. 1. Institute of Electrical and Electronics Engineers Inc. 2001. p. 274-277. 975122 https://doi.org/10.1109/KORUS.2001.975122

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abstract = "Plastic deformation, in common case, proceeds the mutual co-ordination on different scale levels. The tension concentrators and possibility of spreading the lines of localized deformation of corresponding scale level for deformation realization on this level. Both of them are determined by a great number of factors. In this work the influence of structure dimensions the surface state on deformation localization on 12X1M steel mesoscale level was investigated. The dimensions of inside structure were varied by thermal processing condition and the surface state was varied by processing in nitrogen containing glow discharge plasma. It was shown that by increasing the small-grain samples plastic deformation takes place by spreading localized deformation mesobands from the initial mesoconcentrators. By stretching it takes place by Luders' line shifting. By compressing it takes place by forming the mesolines system of localized deformation in the connected directions of maximum tangential stress. In both cases insignificant volume of materials is involved.",

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N2 - Plastic deformation, in common case, proceeds the mutual co-ordination on different scale levels. The tension concentrators and possibility of spreading the lines of localized deformation of corresponding scale level for deformation realization on this level. Both of them are determined by a great number of factors. In this work the influence of structure dimensions the surface state on deformation localization on 12X1M steel mesoscale level was investigated. The dimensions of inside structure were varied by thermal processing condition and the surface state was varied by processing in nitrogen containing glow discharge plasma. It was shown that by increasing the small-grain samples plastic deformation takes place by spreading localized deformation mesobands from the initial mesoconcentrators. By stretching it takes place by Luders' line shifting. By compressing it takes place by forming the mesolines system of localized deformation in the connected directions of maximum tangential stress. In both cases insignificant volume of materials is involved.

AB - Plastic deformation, in common case, proceeds the mutual co-ordination on different scale levels. The tension concentrators and possibility of spreading the lines of localized deformation of corresponding scale level for deformation realization on this level. Both of them are determined by a great number of factors. In this work the influence of structure dimensions the surface state on deformation localization on 12X1M steel mesoscale level was investigated. The dimensions of inside structure were varied by thermal processing condition and the surface state was varied by processing in nitrogen containing glow discharge plasma. It was shown that by increasing the small-grain samples plastic deformation takes place by spreading localized deformation mesobands from the initial mesoconcentrators. By stretching it takes place by Luders' line shifting. By compressing it takes place by forming the mesolines system of localized deformation in the connected directions of maximum tangential stress. In both cases insignificant volume of materials is involved.

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