Performance Characterization of Ni - P - xZrO<sub>2</sub> Nano - Composite Coating by Electrodeposition on Cylinder Liner Surface of Robot Arm

Performance Characterization of Ni - P - xZrO<sub>2</sub> Nano - Composite Coating by Electrodeposition on Cylinder Liner Surface of Robot Arm

In order to improve the comprehensive performance of the electrodeposited Ni-P composite coating on the cylinder liner surface of the robot arm, ZrO2&#x00A0;was doped into the Ni-P coating through the electrodeposition process, and the structure, wettability, hardness and electrochemical corrosi...

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Bibliographic Details
Main Author: WANG Ji-yue, ZHANG Xi, ZHENG Xi-gui, LIU Jin-tao, WANG Xin-chao
Format: Article
Language:zho
Published: Editorial Department of Materials Protection 2021-07-01
Series:Cailiao Baohu
Subjects:
zro2&#x00a0;powder; electrodeposition; ni-p coating; microstructure; wettability; hardness
Online Access:http://www.mat-pro.com/fileup/1001-1560/PDF/20210717.pdf
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Summary:In order to improve the comprehensive performance of the electrodeposited Ni-P composite coating on the cylinder liner surface of the robot arm, ZrO2&#x00A0;was doped into the Ni-P coating through the electrodeposition process, and the structure, wettability, hardness and electrochemical corrosion performance of the Ni-P-xZrO2&#x00A0;nano-composite coating were studied. Results showed that the intensity of ZrO2&#x00A0;diffraction peak at 8.94° increased continuously with the gradual increase of ZrO2&#x00A0;content in the electrolyte solution. After the calcination of the coating, Ni and Ni3P phase components were precipitated, and ZrO2&#x00A0;was doped into the Ni-P coating. When higher content of ZrO2&#x00A0;was added to the electrodeposition solution, the coating formed a rougher surface and produced more dendrites, and the coating changed from hydrophilic to hydrophobic. After increasing the ZrO2&#x00A0;content within a certain range, the Ni-P-ZrO2&#x00A0;composite coating with higher hardness was obtained, and the maximum hardness of the composite coating was close to 1 110 kg/mm2&#x00A0;when the ZrO2&#x00A0;concentration was 5 g/L. A large number of grain boundaries were formed during the precipitation of hard phase Ni3P, resulting in a large number of dislocation accumulation in the grain boundary area, leading to strain hardening. The corrosion current density decreased first and then increased with the increase of ZrO2&#x00A0;content, and the minimum value was obtained at 5 g/L, whereas the changing law of corrosion voltage was opposite.
ISSN:1001-1560

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