Increase of wear-resistance of 30CrMnSi2Ni steel by ultrasonic impact and ion-beam treatments

Abstract

Influence of surface strengthening by nanostructuring surface layer being implemented by ultrasonic impact treatment and deposition of high-strength nanostructured coating was investigated under friction of 30CrMnSi2Ni steel specimens at boundary lubrication. It is shown that formation of uniform nanostructured state in thin subsurface layer with gradient changing of strength with depth of the specimens by the ultrasonic treatment provides increase of wear-resistance of the specimens. This effect is intensified in case of subsequent deposition of the nanostructured TiAlN coating that make it possible to fixes the formed nanostructured state.

Original language	English
Title of host publication	Proceedings of IFOST-2008 - 3rd International Forum on Strategic Technologies
Pages	83-86
Number of pages	4
DOIs	https://doi.org/10.1109/IFOST.2008.4602916
Publication status	Published - 2008
Event	3rd International Forum on Strategic Technologies, IFOST-2008 - Novosibirsk-Tomsk, Russian Federation Duration: 23 Jun 2008 → 29 Jun 2008

Other

Other	3rd International Forum on Strategic Technologies, IFOST-2008
Country	Russian Federation
City	Novosibirsk-Tomsk
Period	23.6.08 → 29.6.08

ASJC Scopus subject areas

Computer Science Applications
Software

Access to Document

10.1109/IFOST.2008.4602916

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Panin, S. V., Sergeev, V. P., Pochivalov, Y. I., Ivanov, Y. F., Askomov, K. V., Kupriyanov, S. N., & Poltaranin, M. A. (2008). Increase of wear-resistance of 30CrMnSi2Ni steel by ultrasonic impact and ion-beam treatments. In Proceedings of IFOST-2008 - 3rd International Forum on Strategic Technologies (pp. 83-86). [4602916] https://doi.org/10.1109/IFOST.2008.4602916

Increase of wear-resistance of 30CrMnSi2Ni steel by ultrasonic impact and ion-beam treatments. / Panin, S. V.; Sergeev, Victor Petrovich; Pochivalov, Yu I.; Ivanov, Yu F.; Askomov, K. V.; Kupriyanov, S. N.; Poltaranin, M. A.

Proceedings of IFOST-2008 - 3rd International Forum on Strategic Technologies. 2008. p. 83-86 4602916.

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

Panin, SV , Sergeev, VP, Pochivalov, YI, Ivanov, YF, Askomov, KV, Kupriyanov, SN & Poltaranin, MA 2008, Increase of wear-resistance of 30CrMnSi2Ni steel by ultrasonic impact and ion-beam treatments. in Proceedings of IFOST-2008 - 3rd International Forum on Strategic Technologies., 4602916, pp. 83-86, 3rd International Forum on Strategic Technologies, IFOST-2008, Novosibirsk-Tomsk, Russian Federation, 23.6.08. https://doi.org/10.1109/IFOST.2008.4602916

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abstract = "Influence of surface strengthening by nanostructuring surface layer being implemented by ultrasonic impact treatment and deposition of high-strength nanostructured coating was investigated under friction of 30CrMnSi2Ni steel specimens at boundary lubrication. It is shown that formation of uniform nanostructured state in thin subsurface layer with gradient changing of strength with depth of the specimens by the ultrasonic treatment provides increase of wear-resistance of the specimens. This effect is intensified in case of subsequent deposition of the nanostructured TiAlN coating that make it possible to fixes the formed nanostructured state.",

author = "Panin, {S. V.} and Sergeev, {Victor Petrovich} and Pochivalov, {Yu I.} and Ivanov, {Yu F.} and Askomov, {K. V.} and Kupriyanov, {S. N.} and Poltaranin, {M. A.}",

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AU - Askomov, K. V.

AU - Kupriyanov, S. N.

AU - Poltaranin, M. A.

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AB - Influence of surface strengthening by nanostructuring surface layer being implemented by ultrasonic impact treatment and deposition of high-strength nanostructured coating was investigated under friction of 30CrMnSi2Ni steel specimens at boundary lubrication. It is shown that formation of uniform nanostructured state in thin subsurface layer with gradient changing of strength with depth of the specimens by the ultrasonic treatment provides increase of wear-resistance of the specimens. This effect is intensified in case of subsequent deposition of the nanostructured TiAlN coating that make it possible to fixes the formed nanostructured state.

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