Analysis of Influence of Aqueous Mediums on Cyclic Crack Resistance of Steels
Three variants of physical models of crack growth during corrosion fatigue destruction of steel are proposed: energy model, model of hydrogen embrittlement, and model of anodic dissolution of metal in crack tip. It is mentioned that the anodic model is more preferable for quantitative analysis. Usin...
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| Published in: | Inorganic materials Vol. 53; no. 15; pp. 1538 - 1547 |
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| Abstract | Three variants of physical models of crack growth during corrosion fatigue destruction of steel are proposed: energy model, model of hydrogen embrittlement, and model of anodic dissolution of metal in crack tip. It is mentioned that the anodic model is more preferable for quantitative analysis. Using variant calculations, good agreement of this model with experimental results is demonstrated. The dominating role of local anodic dissolution is revealed as the main mechanism activating fatigue destruction of moderate strength carbon and low alloy steels in an aqueous corrosion medium. |
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| AbstractList | Three variants of physical models of crack growth during corrosion fatigue destruction of steel are proposed: energy model, model of hydrogen embrittlement, and model of anodic dissolution of metal in crack tip. It is mentioned that the anodic model is more preferable for quantitative analysis. Using variant calculations, good agreement of this model with experimental results is demonstrated. The dominating role of local anodic dissolution is revealed as the main mechanism activating fatigue destruction of moderate strength carbon and low alloy steels in an aqueous corrosion medium. |
| Author | Grin, E. A. |
| Author_xml | – sequence: 1 givenname: E. A. surname: Grin fullname: Grin, E. A. email: lkpomvti@mail.ru organization: All-Russian Thermal Engineering Institute |
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| Cites_doi | 10.1134/S0020168515150066 10.1016/j.msea.2006.07.089 10.1007/BF02327144 10.1115/1.3225837 10.1016/0029-5493(71)90010-0 10.1115/1.3443676 10.5006/1.3593937 10.1115/1.2098862 10.1134/S0020168515150078 10.1115/1.3264274 10.1016/0010-938X(83)90125-7 |
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| Keywords | steel anodic dissolution fatigue electrochemical reaction corrosion crack resistance hydrogen embrittlement metal activation energy destruction mechanism aqueous medium physical model |
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| SubjectTerms | Anodic dissolution Chemistry Chemistry and Materials Science Corrosion fatigue Crack propagation Destruction Dissolution Fatigue failure Hydrogen embrittlement Hydrogen-based energy Industrial Chemistry/Chemical Engineering Inorganic Chemistry Lifetime Low alloy steels Materials Science Mechanics of Materials: Strength Quantitative analysis Safety |
| Title | Analysis of Influence of Aqueous Mediums on Cyclic Crack Resistance of Steels |
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