Effect of hydrogen on notch tensile strength of high strength steel

Mao Qiu Wang; Han Dong; Wei Jun Hui; Jie Shi; Eiji Akiyama; Kaneaki Tsuzaki

Effect of hydrogen on notch tensile strength of high strength steel

Mao Qiu Wang, Han Dong, Wei Jun Hui, Jie Shi, Eiji Akiyama, Kaneaki Tsuzaki

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

Abstract

Hydrogen embrittlement susceptibility of a high strength steel SCM 435 was investigated by means of slow strain rate tests. It is shown that the SCM 435 steel has high susceptibility to hydrogen embritdement when quenched and tempered to a tensile strength of 1450 MPa. The notch tensile strength of hydrogen-precharged specimens is lower than that of the uncharged specimen, and it decreases in a power law manner with the increase of diffusible hydrogen content. Results on notched specimens with different stress concentration factors indicate that hydrogen-induced fracture of the steel is dependent on the peak value of the locally accumulated hydrogen concentration and the peak value of the maximum principal stress.

Original language	English
Pages (from-to)	57-60
Number of pages	4
Journal	Cailiao Rechuli Xuebao/Transactions of Materials and Heat Treatment
Volume	27
Issue number	4
Publication status	Published - Aug 1 2006
Externally published	Yes

All Science Journal Classification (ASJC) codes

Materials Science(all)
Physics and Astronomy(all)

Cite this

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title = "Effect of hydrogen on notch tensile strength of high strength steel",

abstract = "Hydrogen embrittlement susceptibility of a high strength steel SCM 435 was investigated by means of slow strain rate tests. It is shown that the SCM 435 steel has high susceptibility to hydrogen embritdement when quenched and tempered to a tensile strength of 1450 MPa. The notch tensile strength of hydrogen-precharged specimens is lower than that of the uncharged specimen, and it decreases in a power law manner with the increase of diffusible hydrogen content. Results on notched specimens with different stress concentration factors indicate that hydrogen-induced fracture of the steel is dependent on the peak value of the locally accumulated hydrogen concentration and the peak value of the maximum principal stress.",

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T1 - Effect of hydrogen on notch tensile strength of high strength steel

AU - Wang, Mao Qiu

AU - Dong, Han

AU - Hui, Wei Jun

AU - Shi, Jie

AU - Akiyama, Eiji

AU - Tsuzaki, Kaneaki

PY - 2006/8/1

Y1 - 2006/8/1

N2 - Hydrogen embrittlement susceptibility of a high strength steel SCM 435 was investigated by means of slow strain rate tests. It is shown that the SCM 435 steel has high susceptibility to hydrogen embritdement when quenched and tempered to a tensile strength of 1450 MPa. The notch tensile strength of hydrogen-precharged specimens is lower than that of the uncharged specimen, and it decreases in a power law manner with the increase of diffusible hydrogen content. Results on notched specimens with different stress concentration factors indicate that hydrogen-induced fracture of the steel is dependent on the peak value of the locally accumulated hydrogen concentration and the peak value of the maximum principal stress.

AB - Hydrogen embrittlement susceptibility of a high strength steel SCM 435 was investigated by means of slow strain rate tests. It is shown that the SCM 435 steel has high susceptibility to hydrogen embritdement when quenched and tempered to a tensile strength of 1450 MPa. The notch tensile strength of hydrogen-precharged specimens is lower than that of the uncharged specimen, and it decreases in a power law manner with the increase of diffusible hydrogen content. Results on notched specimens with different stress concentration factors indicate that hydrogen-induced fracture of the steel is dependent on the peak value of the locally accumulated hydrogen concentration and the peak value of the maximum principal stress.

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SN - 1009-6264

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JF - Cailiao Rechuli Xuebao/Transactions of Materials and Heat Treatment

IS - 4

ER -

Effect of hydrogen on notch tensile strength of high strength steel

Abstract

All Science Journal Classification (ASJC) codes

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