Stress‐dependent fatigue mechanisms of CrC–NiCr coatings in rolling contact |
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| Authors: | X. C. ZHANG F. Z. XUAN J. S. XU S. T. TU B.S. XU |
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| Affiliation: | 1. Key Laboratory of Safety Science of Pressurized System, Ministry of Education, East China University of Science and Technology, Shanghai, 200237, P.R. China;2. National Key Laboratory for Remanufacturing, Beijing, 100072, P.R. China |
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| Abstract: | The rolling contact fatigue (RCF) behaviour of the plasma‐sprayed CrC–NiCr cermet coatings under different tribological conditions of contact stress was investigated. Four sets of fatigue life data of coatings were characterized by Weibull distributions. The failure modes of the coatings were classified on the basis of worn surface observations of the failed coatings. Results showed that the failure mode of the coating was related to the magnitude of contact stress. The RCF life data of the coatings tested at high contact stresses exhibited high scattering, because the bimodal distribution of the fatigue life data was seen in the Weibull plot. Generally, when the contact stress was relatively low, the coatings were prone to fail in spalling and cohesive delamination. However, at high contact stress, the coatings often failed due to interfacial delamination. At different contact stress levels, the maximum shear stress amplitude was the main reason for the generation of spall and delamination. |
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| Keywords: | cermet coating failure modes mechanisms rolling contact fatigue Weibull distribution |
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