Corrosion fatigue life prediction of a steel shaft material in seawater

Shu-Xin Li, R. Akid

    Research output: Contribution to journalArticlepeer-review

    Abstract

    Corrosion fatigue behaviour of a medium strength structural material was studied in air and in 3.5% NaCl solution. Emphasis was placed on the study of corrosion pit formation and the development of cracks from pits. Pitting and crack propagation were quantified throughout the fatigue loading thereby allowing a model to be developed that included the stages of pitting and the pit-to-crack transition in order to predict the fatigue life. The results showed that a large number of corrosion pits with small size form at a very early stage in the fatigue lifetime. The number of pits and subsequent cracks was found to be higher at higher stress levels leading to multiple crack development and coalescence. When compared to air, fatigue life in a corrosive environment was significantly reduced at low stress levels due to pitting damage, indicating a dominant role of corrosion over that of mechanical effects. The corrosion fatigue model proposed shows good agreement with the experimental test data at lower stress levels but predicts more conservative lifetimes as the stress increases. Kitagawa–Takahashi diagram was produced for both test environments where it is indicated that the fatigue limit can be eliminated in a corrosive environment.
    Original languageEnglish
    Pages (from-to)324-334
    Number of pages10
    JournalEngineering Failure Analysis
    Volume34
    Publication statusPublished - Dec 2013

    Keywords

    • Corrosion fatigue
    • Corrosion pits
    • Pit-to-crack transition
    • Fatigue life

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