腐蚀环境侵袭性监测及曝光室水膜监测传感器的研制

Q3 Materials Science

Koroze a ochrana materialu Pub Date : 2020-03-01 DOI:10.2478/kom-2020-0003

R. Bures, P. Rak, J. Stoulil

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引用次数: 1

摘要

摘要铜暴露在腐蚀性环境中是获得人工铜绿的可能途径。基于氯化物、氨或多硫化物的各种溶液通常用于此目的。此外，铜绿似乎也是在大气中SO2浓度增加的环境中形成的。该程序在一个小（30升）暴露室中进行测试，在该暴露室中监测环境的侵蚀性，并显示冷凝和干燥阶段交替的效果是积极的。基于该实验，设计了一个2m3的先导室，为其开发并测试了水膜传感器，以确保物体表面的干燥。对环境侵蚀性的监测表明，大气中的pH和SO2浓度在大约5小时后是稳定的，理想的输入SO2浓度为17.7g m-3，在该浓度下pH稳定在2.7-3。通过在传感器上记录电压变化，可以在冷凝和干燥阶段的循环过程中监测水膜的形成和干燥。

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Monitoring of corrosive environment aggressiveness and development of a sensor for monitoring of the water film in exposure chamber

Abstract Exposure of copper in corrosive environment is possible way, how to obtain artificial patina. Various solutions based on chloride, ammonia or polysulfide are commonly use in this purpose. Furthermore, it appears that the patina is also formed in an environment with an increased concentration of SO2 in the atmosphere. This procedure was tested in a small (30 l) exposure chamber, where the aggressiveness of the environment was monitored and where the effect of alternating the condensation and drying phases was shown to be positive. Based on this experiment, a 2 m3 pilot chamber was designed for which a water film sensor was developed and tested to ensure drying of the object surface. Monitoring of the aggressiveness of the environment showed that the pH and SO2 concentrations in the atmosphere are stable after approximately 5 hours and the ideal input SO2 concentration is 17.7 g m-3 at which the pH stabilizes at 2.7-3. By recording the voltage variation on the sensor, it was possible to monitor the formation and drying of the water film during the cycling of the condensation and drying phases.

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来源期刊

Koroze a ochrana materialu Materials Science-Materials Science (all)

CiteScore

3.00

自引率

0.00%

发文量

审稿时长

14 weeks