| LI Yun-yu,REN Xi-peng,CHEN Zhao-xiang,LI Hao,REN Li-mei.Influence of DLC Film Deposition on the Tribological Property of Micro-arc Oxidation Films with Different Surface Morphologies on Titanium[J],48(7):112-121 |
| Influence of DLC Film Deposition on the Tribological Property of Micro-arc Oxidation Films with Different Surface Morphologies on Titanium |
| Received:March 29, 2019 Revised:July 20, 2019 |
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| DOI:10.16490/j.cnki.issn.1001-3660.2019.07.012 |
| KeyWord:TA2 micro-arc oxidation DLC friction coefficient wear rate |
| Author | Institution |
| LI Yun-yu |
a.School of Mechanical Engineering, b.Key Laboratory of Aviation Science and Technology on Generic Technology of Self-Lubricating Spherical Plain Bearing, Yanshan University, Qinhuangdao , China |
| REN Xi-peng |
a.School of Mechanical Engineering, b.Key Laboratory of Aviation Science and Technology on Generic Technology of Self-Lubricating Spherical Plain Bearing, Yanshan University, Qinhuangdao , China |
| CHEN Zhao-xiang |
a.School of Mechanical Engineering, b.Key Laboratory of Aviation Science and Technology on Generic Technology of Self-Lubricating Spherical Plain Bearing, Yanshan University, Qinhuangdao , China |
| LI Hao |
a.School of Mechanical Engineering, b.Key Laboratory of Aviation Science and Technology on Generic Technology of Self-Lubricating Spherical Plain Bearing, Yanshan University, Qinhuangdao , China |
| REN Li-mei |
a.School of Mechanical Engineering, b.Key Laboratory of Aviation Science and Technology on Generic Technology of Self-Lubricating Spherical Plain Bearing, Yanshan University, Qinhuangdao , China |
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| Abstract: |
| The work aims to deposit diamond-like carbon (DLC) film on the surface of micro-arc oxidation films on titanium and explore the influence of DLC film deposition on the tribological property of micro-arc oxidation (MAO) films with different surface morphologies. Two kinds of MAO films (MAO_10 and MAO_60) with different surface roughness and micro-pore sizes were fabricated in the aluminate electrolytes with the MAO time of 10 min and 60 min, respectively. Then, a DLC film was deposited on the surface of the MAO film by magnetron sputtering to obtain MAO/DLC composite films. The surface roughness, micro-pore size, friction coefficient, wear rate and wear scar morphology of the MAO and MAO/DLC films were observed and studied by confocal microscope, CSM friction tester, Mahr surface profiler and scanning electron microscopy (SEM). The increasing MAO time increased surface roughness and average micro-pore size, but decreased micro-pore number of MAO films. After the DLC deposition, a relatively good DLC top layer was formed on the surface of MAO_10 film. However, the DLC top layer on the MAO_60 film exhibited a discontinuous distribution due to the high surface roughness and large micro-pore size of MAO_60 film. The surface roughness and average micro-pore size of MAO/DLC composite films were lower than that of MAO films. The tribological test results showed that the friction coefficient and wear rate of MAO_10/DLC composite film were significantly lower than that of MAO_10 film. The stable friction coefficient of MAO_10 film and MAO_10/DLC composite film was 0.85 and 0.24, and the wear rate was 12.76×10-6 mm3/(N•m) and 3.71×10-6 mm3/(N•m), respectively. In contrast, the stable friction coefficient and average wear rate of MAO_60/DLC composite film were near to that of MAO_60 film. The stable friction coefficient of MAO_60 film and MAO_60/DLC composite film was 0.77 and 0.67, and the wear rate was 68.02×10-6 mm3/(N•m) and 61.81×10-6 mm3/(N•m), respectively. When the DLC film is deposited on the MAO film with relatively smooth surface and small micro-pore size, the fabricated MAO/DLC composite film has good tribological property due to the formation of a continuous lubricating layer. In contrast, when the DLC film is deposited on the MAO film with rough surface and large micro-pore size, the continuous lubricating layer is difficult to form, thus leading to a relatively poor tribological property. |
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