Effect of hydrogen gas on the growth of small fatigue crack in JIS-SCM435

Hisatake Itoga, Hisao Matsunaga, Saburo Matsuoka

研究成果: 著書/レポートタイプへの貢献会議での発言

抜粋

The fatigue crack growth (FCG) from a small hole in a low alloy steel JIS-SCM435 round bar was investigated using tension-compression fatigue tests in 0.7 MPa hydrogen gas and ambient air. In the higher FCG rate regime (da/dN > 10-8 m/cycle), FCG was accelerated in hydrogen gas as compared to in air. On the other hand, in the lower FCG rate regime (da/dN < 10-8 m/cycle), FCG in hydrogen was rather slower than that in air. There was no noticeable difference in fatigue limits between these two atmospheres. The FCG in the respective atmospheres showed a typical small crack behavior, i.e. the da/dN for small cracks were much greater than those for large cracks obtained by compact tension (CT) specimen when they were compared at the same ΔK level. In order to unify such a discrepancy of FCG behavior between small crack and large crack, the strain intensity factor range ΔKε was adopted. As a result, the da/dN data for various crack sizes was gathered in a narrow band, i.e. the small crack effect was successfully evaluated with the strain intensity. Moreover, the crack growth life was predicted based on the da/dN-ΔKε relation. The reproduced S-N curve showed a conservative agreement with the fatigue life obtained by experiments.

元の言語英語
ホスト出版物のタイトル11th International Fatigue Congress
出版者Trans Tech Publications
ページ942-947
ページ数6
ISBN(印刷物)9783038350088
DOI
出版物ステータス出版済み - 1 1 2014
イベント11th International Fatigue Congress, FATIGUE 2014 - Melbourne, VIC, オーストラリア
継続期間: 3 2 20143 7 2014

出版物シリーズ

名前Advanced Materials Research
891-892
ISSN(印刷物)1022-6680

その他

その他11th International Fatigue Congress, FATIGUE 2014
オーストラリア
Melbourne, VIC
期間3/2/143/7/14

All Science Journal Classification (ASJC) codes

  • Engineering(all)

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  • これを引用

    Itoga, H., Matsunaga, H., & Matsuoka, S. (2014). Effect of hydrogen gas on the growth of small fatigue crack in JIS-SCM435. : 11th International Fatigue Congress (pp. 942-947). (Advanced Materials Research; 巻数 891-892). Trans Tech Publications. https://doi.org/10.4028/www.scientific.net/AMR.891-892.942