用化学气相沉积法在电阻焊电极上涂覆二氧化钛和镍以延长寿命

International Journal of Innovative Research in Science, Engineering and Technology Pub Date : 2023-05-19 DOI:10.59256/ijire.20230403100

Anadavelu K, Mahabubadsha A, Vembaiyan C, Alexpandiyan J, Akash B, Aravindh A

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引用次数: 0

摘要

采用化学气相沉积法在电极表面沉积TiO2/Ni涂层，提高了镀锌钢电阻焊时的电极寿命。然而，焊接结果表明，熔融Zn通过裂纹渗透到涂层中，然后与基体铜合金反应形成黄铜。在本工作中，对TiO2/Ni涂层电极进行激光处理，以消除沉积TiO2/Ni涂层中形成的裂纹。此外，还进行了Ni、TiO2/Ni和Ni的化学气相沉积，以提高涂层质量。另一方面，还研究了Ti涂层。采用电子显微镜、能量色散x射线分析、x射线衍射和显微硬度测试对涂层进行了表征。结果表明，采用激光处理和化学气相沉积工艺可以消除沉积TiO2/Ni涂层内部的裂纹。然而，激光处理后铜基体的软化是制约焊接性能的一个问题。焊接试验表明，多层TiO2/Ni涂层能较好地阻止铜合金与熔融Zn之间的合金化，减少电极的点蚀。二氧化钛涂层在电极上的应用潜力进一步提高了电极的使用寿命。关键词:电极;分子;钛;纳米技术;镍。

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Tio2 and Nickel Coatings on Resistance Welding Electodrs to exetended Life Using Chemical Vapour Desposition Process

TiO2/Ni coating has been deposited onto the electrodes by chemical vapour deposition to improve electrode life during resistance welding of Zn- coated steels. However, welding results revealed that molten Zn penetrates into coating through the cracks and then reacts with substrate copper alloy to form brasses. In the present work, laser treatment was performed on the TiO2/Ni coated electrodes to eliminate cracks formed in the as-deposited TiO2/Ni coating. In addition, a chemical vapour deposition of Ni, TiO2/Ni and Ni has also been carried out to improve coating quality. On the other hand, a Ti coating was also investigated. Those coatings were characterized by electro-microscopy, energy- dispersive X-ray analysis, X-ray diffraction and micro-hardness tests. The results showed that cracks within the as-deposited TiO2/Ni coating could be eliminated with the use of laser treatment and chemical vapour deposition process. However, softening of copper substrate after laser treatment was a problem that restricted welding performance. Welding tests showed that the multi-layer TiO2/Ni coating acted as a better barrier to decrease alloying between the copper alloy and molten Zn as well as pitting (erosion) of electrode. The TiO2 coating demonstrates its potential application on the electrode to further improve the electrode’s life Key Word: Electrode; Molecular; Titanium; Nanotechnology; Nickel.

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International Journal of Innovative Research in Science, Engineering and Technology

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