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Materials Science and Technology Volume 29, 2013 - Issue 11
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Original Article

On effect of hydrogen on very high cycle fatigue behaviours of high strength steels

J-B Shi Shandong Provincial Engineering and Technology Center of Materials Failure Analysis and Safe EvaluationShandong Analysis and Test Center, Shandong Academy of Sciences, Jinan250014, China
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Y D Li Shandong Provincial Engineering and Technology Center of Materials Failure Analysis and Safe EvaluationShandong Analysis and Test Center, Shandong Academy of Sciences, Jinan250014, ChinaCorrespondence[email protected]
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W M Guo Shandong Provincial Engineering and Technology Center of Materials Failure Analysis and Safe EvaluationShandong Analysis and Test Center, Shandong Academy of Sciences, Jinan250014, China
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N Xu Shandong Provincial Engineering and Technology Center of Materials Failure Analysis and Safe EvaluationShandong Analysis and Test Center, Shandong Academy of Sciences, Jinan250014, China
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X F Wu Shandong Provincial Engineering and Technology Center of Materials Failure Analysis and Safe EvaluationShandong Analysis and Test Center, Shandong Academy of Sciences, Jinan250014, China
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M Zhao Shandong Provincial Engineering and Technology Center of Materials Failure Analysis and Safe EvaluationShandong Analysis and Test Center, Shandong Academy of Sciences, Jinan250014, China
&
H Ma Shandong Provincial Engineering and Technology Center of Materials Failure Analysis and Safe EvaluationShandong Analysis and Test Center, Shandong Academy of Sciences, Jinan250014, China
 show all
Pages 1290-1296 | Received 24 Oct 2012, Accepted 10 Dec 2012, Published online: 18 Nov 2013
 
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Abstract

In order to analyse the effect of hydrogen on very high cycle fatigue properties, hydrogen was precharged into two high strength steels. The applied stress intensity factor range at the periphery of inclusions before and after being precharged is approximately proportional to the cubic root of inclusion size. In addition, the applied stress intensity factor range at the periphery of inclusions after being precharged was lower compared with uncharged specimens. The additional stress intensity factor range generated by hydrogen ΔKH is raised after the hydrogen was precharged. A simple prediction equation of SN curve was proposed by introducing the hydrogen influence factor. The proposed prediction equation can reasonably describe the SN curves for precharged specimens.

The present work was financially supported by the National Natural Science Foundation of China (grant no. 51101094) and Fund project of Technology Development of Shandong Academy of Sciences (grant no. KJHZ 2011-04).

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