Microstructure and wear resistance of in-situ ZrC/Ni composite coating by argon arc cladding

机译：原位ZRC / Ni复合涂层的微观结构和耐磨性氩气弧形覆盖层

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Ni-based composite coating locally reinforced with in-situ ZrC/Ni was prepared on the surface of Q235 steel by argon arc cladding using Zr-Ni-C pre-alloyed powders. The microstructure, micro-hardness and wear resistance were analyzed by SEM, XRD, Micro-hardness Tester, and Wear Tester, respectively. The results show that the excellent metallurgical bonding is formed between the composite coating and the substrate. The main phases of composite coating are ZrC particles and [Fe,Ni] solid solution. Moreover, ZrC particles are dispersively distributed in the cladded coating and the size is 2–4µm. The results of property research show that the average hardness of the coating can achieve at 1000 HV0.2, and the wear resistance is 7.2 times as high as the Q235 steel substrate.

机译：通过使用Zr-Ni-C预合金粉末，在Q235钢的表面上制备与原位ZRC / Ni局部增强的Ni基复合涂层。通过SEM，XRD，微硬度测试仪和磨损测试仪分析微观结构，微硬度和耐磨性。结果表明，在复合涂层和基材之间形成了优异的冶金键合。复合涂层的主要相是ZRC颗粒和[Fe，Ni]固溶体。此外，ZRC颗粒在包覆涂层中分散地分布，尺寸为2-4μm。物业研究结果表明，涂层的平均硬度可以在1000 HV0.2达到，耐磨性是Q235钢基材高7.2倍。

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来源
《International Forum on Strategic Technology》|2011年||共3页
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Zhenting Wang; Gang Liang; Guogang Zhao;
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中图分类 TP3-53;
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ZrC; argon arc cladding; composite coating;

机译：Zrc;氩弧包覆;复合涂层;

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Microstructure and wear resistance of in-situ ZrC/Ni composite coating by argon arc cladding

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