Preparation of MoS2+Cu coating through the EDC process and its analysis

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Preparation of MoS2+Cu coating through the EDC process and its analysis

机译：通过EDC工艺制备MOS2 + Cu涂层及其分析

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A solid-lubricant coating of molybdenum disulphide (MoS2) and copper (Cu) powder has been prepared on the mild steel substrate using electrical discharge coating (EDC) technique. The effect of machining parameters (peak current, duty factor, and powder mixing ratio) on surface integrity and tribological characteristics of the coated surface has been investigated. XRD result indicates the formation of different compounds such as Mo, Cu, MoS2, and FeS on the coated surface during the EDC process. The maximum coating thickness of 0.647 mm has been achieved. The coating exhibits lower hardness value (45.49 HV0.2-114 HV0.2) than that of a substrate (180HV(0.2)) which leads to the solid lubricating properties. Pin-on-disc tribometer has been used to observe the wear behaviour of the samples and found that average wear of the coated surface is 4.56 mu m as compared to the mild steel substrate (95.61 mu m).

机译：使用电放电涂层（EDC）技术在温和的钢基板上制备了二硫化钼（MOS2）和铜（Cu）粉末的固体润滑剂涂层。研究了加工参数（峰值电流，占子因子和粉末混合比）对涂覆表面的表面完整性和摩擦学特性的影响。 XRD结果表明在EDC工艺期间，在涂覆表面上形成不同化合物如Mo，Cu，MOS2和FES。已经实现了0.647mm的最大涂层厚度。涂层表现出低于基材的硬度值（45.49 HV0.2-114 HV0.2）（180HV（0.2）），其导致固体润滑性能。索盘摩擦计已被用于观察样品的磨损行为，发现与低碳钢基板（95.61μm）相比，涂覆表面的平均磨损为4.56μm。

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《Surface Engineering》 |2020年第2期|共8页
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正文语种 eng
中图分类金属腐蚀与保护、金属表面处理;
关键词
Solid lubricant; molybdenum disulphide; EDC; morphology; microhardness; wear;

机译：固体润滑剂;二硫化物;EDC;形态;微硬度;穿;

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Preparation of MoS2+Cu coating through the EDC process and its analysis

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