陆丹华,徐叶蕾,吴国龙,王晔,张天亮,姚建华.激光熔凝前处理对钛合金表面电沉积铜过程及耐蚀性的影响[J].表面技术,2021,50(11):83-92, 110.
LU Dan-hua,XU Ye-lei,WU Guo-long,WANG Ye,ZHANG Tian-liang,YAO Jian-hua.Effect of Laser Melting Pretreatment on Process and Corrosion Resistance of Electrodeposited Copper on Titanium Alloy Surface[J].Surface Technology,2021,50(11):83-92, 110
激光熔凝前处理对钛合金表面电沉积铜过程及耐蚀性的影响
Effect of Laser Melting Pretreatment on Process and Corrosion Resistance of Electrodeposited Copper on Titanium Alloy Surface
投稿时间:2020-11-27  修订日期:2021-05-24
DOI:10.16490/j.cnki.issn.1001-3660.2021.11.006
中文关键词:  激光熔凝  电化学沉积  钛合金  镀铜  结合力  耐蚀性
英文关键词:laser melting  electrochemical deposition  titanium alloy  copper plating  binding force  corrosion resistance
基金项目:国家自然科学基金(51975533,U1809220);浙江省基础公益研究计划项目(LGJ20E050002)
作者单位
陆丹华 浙江工业大学 激光先进制造研究院,杭州 310023;高端激光制造装备省部共建协同创新中心,杭州 310023 
徐叶蕾 浙江工业大学 激光先进制造研究院,杭州 310023;高端激光制造装备省部共建协同创新中心,杭州 310023 
吴国龙 浙江工业大学 激光先进制造研究院,杭州 310023;高端激光制造装备省部共建协同创新中心,杭州 310023 
王晔 浙江工业大学 激光先进制造研究院,杭州 310023;高端激光制造装备省部共建协同创新中心,杭州 310023 
张天亮 浙江工业大学 激光先进制造研究院,杭州 310023;高端激光制造装备省部共建协同创新中心,杭州 310023 
姚建华 浙江工业大学 激光先进制造研究院,杭州 310023;高端激光制造装备省部共建协同创新中心,杭州 310023 
AuthorInstitution
LU Dan-hua Institute of Laser Advanced Manufacturing, Zhejiang University of Technology, Hangzhou 310023, China;Provincial and Ministry Co-construction of Collaborative Innovation Center of High-end Laser Manufacturing Equipment, Hangzhou 310023, China 
XU Ye-lei Institute of Laser Advanced Manufacturing, Zhejiang University of Technology, Hangzhou 310023, China;Provincial and Ministry Co-construction of Collaborative Innovation Center of High-end Laser Manufacturing Equipment, Hangzhou 310023, China 
WU Guo-long Institute of Laser Advanced Manufacturing, Zhejiang University of Technology, Hangzhou 310023, China;Provincial and Ministry Co-construction of Collaborative Innovation Center of High-end Laser Manufacturing Equipment, Hangzhou 310023, China 
WANG Ye Institute of Laser Advanced Manufacturing, Zhejiang University of Technology, Hangzhou 310023, China;Provincial and Ministry Co-construction of Collaborative Innovation Center of High-end Laser Manufacturing Equipment, Hangzhou 310023, China 
ZHANG Tian-liang Institute of Laser Advanced Manufacturing, Zhejiang University of Technology, Hangzhou 310023, China;Provincial and Ministry Co-construction of Collaborative Innovation Center of High-end Laser Manufacturing Equipment, Hangzhou 310023, China 
YAO Jian-hua Institute of Laser Advanced Manufacturing, Zhejiang University of Technology, Hangzhou 310023, China;Provincial and Ministry Co-construction of Collaborative Innovation Center of High-end Laser Manufacturing Equipment, Hangzhou 310023, China 
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中文摘要:
      目的 通过激光前处理提高钛合金表面铜沉积层的质量及性能。方法 采用振镜激光器在电沉积铜前对钛合金基体表面先进行激光熔凝处理,整个熔凝过程在气氛保护下进行。研究了激光熔凝前处理对沉积层与基体结合力的影响机理,对传统化学前处理与激光熔凝前处理后铜沉积过程中的微观形貌、截面厚度、沉积层结合力和耐腐蚀性能进行了对比分析。结果 采用激光熔凝前处理后,钛合金表层组织得到细化并产生大量位错,从而削弱了沉积初期的选择性,表面沉积速率更快,获得的沉积层厚度更大,沉积层孔隙更少、更致密。1 h相同沉积时间下,激光熔凝前处理的沉积层厚度为163.65 μm,几乎达到化学前处理得到的沉积层厚度(97.97 μm)的两倍,且沉积层表现出与基体更佳的结合力。耐蚀性测试得到化学前处理与激光前处理所得铜沉积层的腐蚀电压分别为‒0.441、‒0.393 V,腐蚀电流密度分别为55.18、5.913 μA/cm2。结论 激光熔凝前处理提高了钛合金表面铜沉积层的沉积质量及其与基体间的结合力,同时提高了铜沉积层的耐腐蚀性能。
英文摘要:
      To improve the quality and performance of copper deposits on the surface of titanium alloys through laser pretreatment, in this paper, a galvanometer laser was used to perform laser melting pretreatment on the superficial layer of the titanium alloy substrate before electrodepositing copper. The whole laser melting process was under the protection of atmosphere. The effect mechanism of laser melting pretreatment on the bond between the deposited layer and the substrate was studied. The morphology, cross-sectional thickness, bonding force and corrosion resistance of the copper deposition after traditional chemical pretreatment and laser melting were compared and analyzed. The results showed that the surface microstructure of the titanium alloy was refined, a large number of dislocations were generated after the pretreatment of laser melting, which weakened the selectivity of the initial deposition and improved the deposition rate. The electrodeposited layer was thicker, with fewer pores and more dense after laser melting pretreatment. At the same deposition time for 1 h, the thickness of the electrodeposited layer obtained by the laser melting pretreatment sample was 163.65 μm, which was almost twice that of the chemical pretreatment sample (97.97 μm). In addition, the electrodeposited copper layer of the laser melting pretreatment sample showed better bonding force with the substrate. The corrosion resistance test showed that the corrosion voltages of the copper deposits obtained by chemical pretreatment and laser pretreatment were ‒0.441 V and ‒0.393 V, and the corrosion current densities were 55.18 μA/cm2 and 5.913 μA/cm2, respectively. Laser melting pretreatment improved the deposition quality of the copper deposition layer on the surface of the titanium alloy and the bonding force with the substrate, and at the same time improved the corrosion resistance of the copper deposition.
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