Chemical and Electrochemical Characterization of Artifi cial Sulphate Patina on Bronze
来源期刊:Journal Of Wuhan University Of Technology Materials Science Edition2014年第3期
论文作者:毛样武 NIE Dunwei MOMBELLO Domenico
文章页码:585 - 589
摘 要:Copper patinas are generally regarded as aesthetically pleasing and are supposed to protect copper against further corrosion. The preparation of artifi cial sulphate patina on bronzes has been realized by immersing the bronze into CuSO 4 solution. The effect of immersion time on the formation of the patina has been investigated. The sulphate patina obtained with immersion time of 500 h in CuSO 4 solution consists of fl at area and crystals. The fl at area in the patina is mainly made of cuprite, whereas the crystals are mainly composed of brochantite. The electrochemical measurement of sulphate patina in simulated acid rain with pH 3.1 shows that the protective effectiveness of patina decreases with time and the dissolution of patina is the key factor leading to the degradation of patina. The investigation of the formation mechanism of sulphate patina shows that the cuprite layer forms on the surface of bronze in the initial patination. Then, crystal brochantite grows on the surface of cuprite by the oxidation of cuprite and the incorporation of CuSO 4 solution.
毛样武1,2,NIE Dunwei1,MOMBELLO Domenico2
1. Key Laboratory of Plasma Chemistry and Advanced Materials of Hubei Province,Wuhan Institute of Technology2. Department of Applied Science and Technology, Politecnico di Torino,Torino 10129, Italy
摘 要:Copper patinas are generally regarded as aesthetically pleasing and are supposed to protect copper against further corrosion. The preparation of artifi cial sulphate patina on bronzes has been realized by immersing the bronze into CuSO 4 solution. The effect of immersion time on the formation of the patina has been investigated. The sulphate patina obtained with immersion time of 500 h in CuSO 4 solution consists of fl at area and crystals. The fl at area in the patina is mainly made of cuprite, whereas the crystals are mainly composed of brochantite. The electrochemical measurement of sulphate patina in simulated acid rain with pH 3.1 shows that the protective effectiveness of patina decreases with time and the dissolution of patina is the key factor leading to the degradation of patina. The investigation of the formation mechanism of sulphate patina shows that the cuprite layer forms on the surface of bronze in the initial patination. Then, crystal brochantite grows on the surface of cuprite by the oxidation of cuprite and the incorporation of CuSO 4 solution.
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