Synthesis and characterization of functionally graded nickel‐nickel coated ZrO2 composite coating |
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Authors: | B. Bostani N. Parvini Ahmadi S. Yazdani R. Arghavanian |
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Affiliation: | 1. Faculty of Materials Engineering, Sahand University of Technology, TABRIZ, IRAN;2. Department of Mechanical Engineering, Tabriz Branch, Islamic Azad University, TABRIZ, IRAN |
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Abstract: | Electroless‐nickel plated ZrO2 (NCZ) particles have been used to produce a functionally graded nickel‐electroless‐nickel plated ZrO2 composite coating. So, electroless‐nickel plated ZrO2 particles concentration was continuously increased from 0 to an optimum value in the electroplating bath (Watt's bath). The substrate was ST37 steel and the thickness of the coating was approximately 50 μm. Also a uniformly distributed nickel‐electroless‐nickel plated ZrO2 composite coating has been manufactured as comparison. The composite coatings were characterized by scanning electron microscopy and energy‐dispersive X‐ray spectroscopy. Structure and phase composition were identified by X‐ray diffraction analysis. Microhardness of the coatings was evaluated by employing a Vickers instrument. Three‐point bend test was carried out to compare the adhesion strength of the coatings. Dry sliding wear tests were performed using a pin‐on‐disk wear apparatus. The electrochemical behavior of the coatings was studied by electrochemical impedance spectroscopy. The microhardness measurements showed that, with increasing the co‐electrodeposited electroless‐nickel plated ZrO2 particle content in the nickel matrix, the microhardness increases from interface towards the surface of the functionally graded composite coating. Bend, wear and electrochemical test results confirmed that the functionally graded composite coating has higher adhesion, wear resistance and corrosion resistance as compared with the uniformly distributed coating. This has been attributed to lower mechanical mismatch between coating and substrate in functionally graded composite coating with respect to the uniformly distributed one. |
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Keywords: | Functionally graded composite coating microhardness adhesion wear resistance corrosion resistance Funktional gradierte Kompositbeschichtung Mikrohä rte Haftung Verschleiß bestä ndigkeit Korrosionsbestä ndigkeit |
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