张秀萍,穆耀钊,李雷,谢燕翔,戴君,徐可为,石京.镁合金表面有机防腐导电涂层的制备及性能研究[J].表面技术,2019,48(11):341-346.
ZHANG Xiu-ping,MU Yao-zhao,LI Lei,XIE Yan-xiang,DAI Jun,XU Ke-wei,SHI Jing.Preparation and Properties of Organic Anticorrosive Conductive Coating on Magnesium Alloy[J].Surface Technology,2019,48(11):341-346
镁合金表面有机防腐导电涂层的制备及性能研究
Preparation and Properties of Organic Anticorrosive Conductive Coating on Magnesium Alloy
投稿时间:2019-03-06  修订日期:2019-11-20
DOI:10.16490/j.cnki.issn.1001-3660.2019.11.039
中文关键词:  镁合金  有机涂层  炭黑  耐腐蚀性  导电性
英文关键词:magnesium alloy  organic coating  carbon black  corrosion resistance  conductivity
基金项目:陕西省战略性新兴产业重大产品项目(2016KTCQ01-80);陕西省教育厅重点实验室科研计划项目(18JS100)
作者单位
张秀萍 1.西安文理学院 陕西省表面工程与再制造重点实验室 西安市智能增材制造重点实验室,西安 710065 
穆耀钊 1.西安文理学院 陕西省表面工程与再制造重点实验室 西安市智能增材制造重点实验室,西安 710065 
李雷 1.西安文理学院 陕西省表面工程与再制造重点实验室 西安市智能增材制造重点实验室,西安 710065 
谢燕翔 1.西安文理学院 陕西省表面工程与再制造重点实验室 西安市智能增材制造重点实验室,西安 710065 
戴君 1.西安文理学院 陕西省表面工程与再制造重点实验室 西安市智能增材制造重点实验室,西安 710065 
徐可为 2.西安交通大学 材料科学与工程学院,西安 710049;3.辛辛那提大学 机械与材料工程学院,美国 辛辛那提 45221 
石京 3.辛辛那提大学 机械与材料工程学院,美国 辛辛那提 45221 
AuthorInstitution
ZHANG Xiu-ping 1.Shaanxi Key Laboratory of Surface Engineering and Remanufacturing, Xi’an Key Laboratory of Intelligent additive manufacturing, Xi’an University, Xi’an 710065, China 
MU Yao-zhao 1.Shaanxi Key Laboratory of Surface Engineering and Remanufacturing, Xi’an Key Laboratory of Intelligent additive manufacturing, Xi’an University, Xi’an 710065, China 
LI Lei 1.Shaanxi Key Laboratory of Surface Engineering and Remanufacturing, Xi’an Key Laboratory of Intelligent additive manufacturing, Xi’an University, Xi’an 710065, China 
XIE Yan-xiang 1.Shaanxi Key Laboratory of Surface Engineering and Remanufacturing, Xi’an Key Laboratory of Intelligent additive manufacturing, Xi’an University, Xi’an 710065, China 
DAI Jun 1.Shaanxi Key Laboratory of Surface Engineering and Remanufacturing, Xi’an Key Laboratory of Intelligent additive manufacturing, Xi’an University, Xi’an 710065, China 
XU Ke-wei 2.School of Materials Science and Engineering, Xi’an Jiaotong University, Xi’an 710049, China; 3.School of Mechanical and Materials Engineering, University of Cincinnati, Cincinnati 45221, USA 
SHI Jing 3.School of Mechanical and Materials Engineering, University of Cincinnati, Cincinnati 45221, USA 
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中文摘要:
      目的 通过在AZ31镁合金表面微弧氧化陶瓷层上制备有机导电涂层,实现其既防腐又导电的功能。方法 加入无机导电炭黑制备涂料体系,在前期制备的微弧氧化层表面,应用刮涂法制备不同配比的有机防腐导电涂层。采用场发射电子显微镜观察涂层的微观形貌,用电化学方法测试涂层耐蚀性,用双电侧四探针测试仪测量涂层电阻值。结果 有机物中添加无机导电炭黑颗粒,对材料形貌有较大影响,随导电颗粒的添加,涂层表面质量下降,出现较多裂纹。与只有微弧氧化涂层的材料相比,其腐蚀电位提高了0.6~0.68 V。导电炭黑能有效地改善涂层的导电性,当炭黑添加量为10%时,涂层的平均电阻仅为70 Ω。结论 有机涂层由于封孔和惰性反应作用,能进一步提高微弧氧化涂层的耐蚀性,由于导电炭黑颗粒的隧道效应及导电网络作用,使得涂层导电性大幅提高。
英文摘要:
      The work aims to prepare organic conductive coating on the micro-arc oxidation ceramic layer on the surface of the magnesium alloy (AZ31) to achieve the function of corrosion prevention and conduction. On the surface of the micro-arc oxidation layer prepared in the previous stage, inorganic conductive carbon black was added, and different ratios of organic anti-corrosion conductive coatings were prepared by knife coating method. The microscopic morphology of the coating was observed by field emission electron microscopy, the corrosion resistance of the coating was tested electrochemically, and the coating resistance was measured by a four-electrode four-probe tester. The addition of inorganic conductive carbon black particles to the organic matter had a great influence on the morphology of the material. With the addition of conductive particles, the surface quality of coating decreased and more cracks appeared. Compared with the material with only micro-arc oxidation coating, the corrosion potential was increased by 0.6~0.68 V. The conductive carbon black could effectively improve the conductivity of the coating and when the carbon black was added in an amount of 10 wt.%, the average resistance of the coating was only 70 Ω. Due to the sealing and inert reaction, the organic coating can further improve the corrosion resistance of the micro-arc oxidation coating. Due to the tunneling effect of the conductive carbon black particles and the conductive network, the conductivity of the coating is greatly improved.
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