Notch fatigue behaviour of low-temperature gaseous carburised 316L austenitic stainless steel

Yawei Peng; Song Zhang; Zhe Liu; Jianming Gong

doi:10.1080/02670836.2020.1753155

Notch fatigue behaviour of low-temperature gaseous carburised 316L austenitic stainless steel

Yawei Peng, Song Zhang, Zhe Liu, Jianming Gong

School of Mechanical and Power Engineering

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

The influence of low-temperature gaseous carburisation on notch fatigue behaviour of 316L steel under cyclic axial loading was investigated. After carburisation, the carburised case was well distributed at the surface region and was not influenced by the notch geometry. Low-temperature carburisation considerably enhanced the notch fatigue performance, which led to 32% and 44% increase in the endurance limits for the specimens with stress concentration factors K_t= 1.91 and 3.91, respectively. The notch sensitivity of 316L steel reduced after carburisation. Irrespective of the applied stress amplitude, the fatigue crack nucleation sites were always at the notch root surface for the untreated specimens. For the carburised specimens, fatigue cracks nucleation changed from surface at high-level stress to subsurface at low-level stress.

Original language	English
Pages (from-to)	1076-1082
Number of pages	7
Journal	Materials Science and Technology (United Kingdom)
Volume	36
Issue number	10
DOIs	https://doi.org/10.1080/02670836.2020.1753155
State	Published - 2 Jul 2020

Keywords

316L austenitic stainless steel
Low-temperature gaseous carburisation
fatigue crack nucleation
notch fatigue

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10.1080/02670836.2020.1753155

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title = "Notch fatigue behaviour of low-temperature gaseous carburised 316L austenitic stainless steel",

abstract = "The influence of low-temperature gaseous carburisation on notch fatigue behaviour of 316L steel under cyclic axial loading was investigated. After carburisation, the carburised case was well distributed at the surface region and was not influenced by the notch geometry. Low-temperature carburisation considerably enhanced the notch fatigue performance, which led to 32% and 44% increase in the endurance limits for the specimens with stress concentration factors Kt= 1.91 and 3.91, respectively. The notch sensitivity of 316L steel reduced after carburisation. Irrespective of the applied stress amplitude, the fatigue crack nucleation sites were always at the notch root surface for the untreated specimens. For the carburised specimens, fatigue cracks nucleation changed from surface at high-level stress to subsurface at low-level stress.",

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author = "Yawei Peng and Song Zhang and Zhe Liu and Jianming Gong",

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T1 - Notch fatigue behaviour of low-temperature gaseous carburised 316L austenitic stainless steel

AU - Peng, Yawei

AU - Zhang, Song

AU - Liu, Zhe

AU - Gong, Jianming

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Y1 - 2020/7/2

N2 - The influence of low-temperature gaseous carburisation on notch fatigue behaviour of 316L steel under cyclic axial loading was investigated. After carburisation, the carburised case was well distributed at the surface region and was not influenced by the notch geometry. Low-temperature carburisation considerably enhanced the notch fatigue performance, which led to 32% and 44% increase in the endurance limits for the specimens with stress concentration factors Kt= 1.91 and 3.91, respectively. The notch sensitivity of 316L steel reduced after carburisation. Irrespective of the applied stress amplitude, the fatigue crack nucleation sites were always at the notch root surface for the untreated specimens. For the carburised specimens, fatigue cracks nucleation changed from surface at high-level stress to subsurface at low-level stress.

AB - The influence of low-temperature gaseous carburisation on notch fatigue behaviour of 316L steel under cyclic axial loading was investigated. After carburisation, the carburised case was well distributed at the surface region and was not influenced by the notch geometry. Low-temperature carburisation considerably enhanced the notch fatigue performance, which led to 32% and 44% increase in the endurance limits for the specimens with stress concentration factors Kt= 1.91 and 3.91, respectively. The notch sensitivity of 316L steel reduced after carburisation. Irrespective of the applied stress amplitude, the fatigue crack nucleation sites were always at the notch root surface for the untreated specimens. For the carburised specimens, fatigue cracks nucleation changed from surface at high-level stress to subsurface at low-level stress.

KW - 316L austenitic stainless steel

KW - Low-temperature gaseous carburisation

KW - fatigue crack nucleation

KW - notch fatigue

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JO - Materials Science and Technology (United Kingdom)

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Notch fatigue behaviour of low-temperature gaseous carburised 316L austenitic stainless steel

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