T.-C. Hu's scientific contributions
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Publications (3)
Ionic liquid/texturing diamond-like carbon composite lubrication films were successfully prepared on silicon substrates by a composite technology combining of laser texturing, magnetron sputtering and dip-coating. Textured diamond-like carbon surface were analyzed using non-contact interferometric microscope and scanning electron microscope. Presen...
The composite lubrication structures were prepared by incorporation of solid lubricant into micro-dimples produced by laser surface texturing on the surface of 45 # steel. The tribological properties of solid lubricant films on textured surfaces were compared with the behavior of burnished solid lubricant films on ground surfaces. The effects of th...
The surface textures on GCr15 steel were produced with a solid-state pulse Nd:YAG laser. The effects of laser texturing parameters on tribological performance were investigated. The wear scars were analyzed using scanning electron microscopy. The results show that laser-textured specimens exhibited higher friction coefficients but excellent antiwea...
Citations
... Both the average COF and WSW shown in Fig. 13(b) tend to increase with the Increasing rotational speed brings out an increment in the wear track distance. In this case, the coating peels off more easily and COF increases, which is sim- ilar to the finding in Ref. [42]. ...
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... The surface texture cannot play a good lubrication role under the condition of dry friction, and the service life of MoS 2 solid lubricant is shorter when it is used alone. In this study [113], solid lubricant and surface texture technology were combined to prepare the surface of 45 # steel. The results show that the combination of the two technologies can significantly improve the friction surface performance under dry friction conditions, which is because MoS 2 stored in the pit texture during the friction surface operation can provide lubrication for the formation of lubricating film. ...
... 此外, Shum [7] 和Qi [8] 等的研究表明激光织构化 技术可以提高刀具钢的抗磨损能力. Oksanen等 [9] 和 Pu等 [10] 的研究表明织构化技术与涂层技术具有良好 的协同作用. Hu等 [11] 总结了国内外疏水微形貌表面减 阻理论研究的最新成果和宏观试验进展, 并对其机理 进行深入分析, 为微形貌在水下材料的应用提供了可能. ...
