带锈青铜文物材料在环境模拟介质中的腐蚀发展行为

林颖; 闫莹; 吴雪威; 伍思敏; 周浩; 吴来明; 蔡兰坤

林颖,闫莹,吴雪威,伍思敏,周浩,吴来明,蔡兰坤.带锈青铜文物材料在环境模拟介质中的腐蚀发展行为[J].表面技术,2017,46(2):46-51.
LIN Ying,YAN Ying,WU Xue-wei,WU Si-min,ZHOU Hao,WU Lai-ming,CAI Lan-kun.Corrosion Development Behavior of Patinated Bronze Relics in the Environ-mental Simulation Media[J].Surface Technology,2017,46(2):46-51

带锈青铜文物材料在环境模拟介质中的腐蚀发展行为

Corrosion Development Behavior of Patinated Bronze Relics in the Environ-mental Simulation Media

投稿时间：2016-10-20 修订日期：2017-02-20

DOI：10.16490/j.cnki.issn.1001-3660.2017.02.007

中文关键词: 带锈青铜粉状锈动电位扫描法

英文关键词:patinated bronze powdery rust potentiodynamic scanning

基金项目:大学生创新创业训练计划项目（x14088）；上海市科委科研计划重点支撑项目（13231203000）

作者	单位
林颖	华东理工大学，上海 200237
闫莹	华东理工大学，上海 200237
吴雪威	华东理工大学，上海 200237
伍思敏	华东理工大学，上海 200237
周浩	上海博物馆，上海 200050
吴来明	上海博物馆，上海 200050
蔡兰坤	华东理工大学，上海 200237

Author	Institution
LIN Ying	East China University of Science and Technology, Shanghai 200237, China
YAN Ying	East China University of Science and Technology, Shanghai 200237, China
WU Xue-wei	East China University of Science and Technology, Shanghai 200237, China
WU Si-min	East China University of Science and Technology, Shanghai 200237, China
ZHOU Hao	Shanghai Museum, Shanghai 200050, China
WU Lai-ming	Shanghai Museum, Shanghai 200050, China
CAI Lan-kun	East China University of Science and Technology, Shanghai 200237, China

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中文摘要:

目的研究3种带锈青铜及裸青铜文物材料在3种环境模拟液中的腐蚀发展行为。方法采用动电位扫描和SEM-EDS等方法研究试样的腐蚀特征和现象。结果在模拟大气环境介质中，电位在50~160 mV阳极极化范围内，与其他三种青铜材料相比，带CuCl锈青铜的阳极腐蚀电流密度最小；在模拟海水介质中，锈蚀青铜的腐蚀电流密度略大于裸青铜的；在模拟SO2环境介质中，4种青铜试样的Rp值均大于大气环境介质中的。结论在模拟大气环境介质中，且阳极极化电位接近自腐蚀电位时，CuCl锈对青铜基体具有一定的保护性；在模拟海水环境介质中，带锈青铜的表面锈对基体没有保护作用；在模拟SO2环境介质中，与在模拟大气环境介质中相比，SO32的引入会抑制青铜的腐蚀。表面形貌和能谱分析结果表明，裸青铜、CuCl锈青铜和混合锈青铜在模拟SO2环境介质中，有点蚀现象发生，对粉状锈的生成有抑制作用。

英文摘要:

The work aims to study the corrosion development behavior of patinated bronze in 3 kinds of environment simulated solution. Corrosion features and phenomena of the samples were studied by means of potentiodynamic scanning, SEM-EDS, etc. In simulated atmospheric environmental medium, potential fell within 50~160 mV, the range of anodic polarization. Compared with other three bronze materials, the anode corrosion current density of bronzes covered with CuCl rust was the minimum; in simulated sea water environmental medium, the anode corrosion current density of patinated bronzes were all slightly greater than bare bronze; in simulated SO2 environmental medium, the Rp values of four bronze samples were all greater than that in atmospheric environment. In simulated atmospheric environmental medium, the CuCl patina was protective for bronze substrate at more negative potential; in simulated sea water environmental medium, patinated bronze had no protective effect on the substrate; in simulated SO2 environmental medium, the introduction of SO32 inhibited the corrosion of bronzes. The surface morphology and SEM-EDS analysis results show that, in the simulated SO2 environmental medium, pitting corrosion is present in bare bronze, CuCl patinated bronze and mixed patinated bronze, thus inhibiting the formation of powdery rust.

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