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Laser surface alloying of copper with titanium : Part I. Electrical wear resistance in dry condition. Part II. Electrical wear resistance in wet and corrosive condition

机译：铜与钛的激光表面合金化：第一部分。干燥条件下的抗电磨损性。第二部分潮湿和腐蚀性条件下的电气耐磨性

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A high-power diode laser was used for alloying titanium on commercially pure copper (cp Cu) for enhancing electrical sliding wear in air. Microstructure and phases present were analyzed using scanningelectron microscopy and X-ray diffraction, respectively. Electrical sliding wear tests in air were conducted with a pin-on-disc tribometer with andwithout electric current. The electrical slidingwear resistances of all laser-alloyed samples are significantly enhanced by 3 orders of magnitude as compared with cp Cu. Among the laser-alloyed samples, the one with 70 wt.% Ti and average hardness of 661 HV0.2 possesses the highest electrical sliding wear resistance. The enhancement in electrical wear resistance in air is attributed to the presence of Cu-Ti intermetallic phases (IMPs) and solid solution hardening.

机译：高功率二极管激光器用于将钛合金化到商业纯铜（cp Cu）上，以增强空气中的电滑动磨损。分别使用扫描电子显微镜和X射线衍射分析存在的微观结构和相。空气中的电滑动磨损测试是通过带盘式摩擦计在有电流和无电流的条件下进行的。与cp Cu相比，所有激光合金化样品的抗电气滑动磨损性均显着提高了3个数量级。在激光合金样品中，Ti含量为70％（重量），平均硬度为661 HV0.2的样品具有最高的耐电气滑动磨损性。空气中耐磨性的提高归因于Cu-Ti金属间相（IMP）的存在和固溶硬化。

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Kwok CT; Wong PK; Man HC;
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年度 2016
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1. Laser surface alloying of copper with titanium: Part I. Electrical wear resistance in dry condition. Part II. Electrical wear resistance in wet and corrosive condition [J] . Kwok C. T., Wong P. K., Man H. C. Surface & Coatings Technology . 2016,第Null期

机译：铜与钛的激光表面合金化：第一部分。干燥条件下的抗电磨损性。第二部分在潮湿和腐蚀性条件下的电气耐磨性
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Laser surface alloying of copper with titanium : Part I. Electrical wear resistance in dry condition. Part II. Electrical wear resistance in wet and corrosive condition

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