黄颖军,楼淼,李莎莎,芦玉峰.耦合多电极矩阵传感技术在埋地腐蚀中的应用[J].表面技术,2015,44(8):110-114.
HUANG Ying-jun,LOU Miao,LI Sha-sha,LU Yu-feng.Application of Coupled Multielectrode Array Sensors in Buried Corrosion[J].Surface Technology,2015,44(8):110-114
耦合多电极矩阵传感技术在埋地腐蚀中的应用
Application of Coupled Multielectrode Array Sensors in Buried Corrosion
投稿时间:2015-04-22  修订日期:2015-08-20
DOI:10.16490/j.cnki.issn.1001-3660.2015.08.020
中文关键词:  耦合多电极矩阵传感技术  埋地容器  腐蚀速率  在线监测  轻集料混凝土  膨润土
英文关键词:coupled multielectrode array sensors  buried vessel  corrosion rate  on-line monitoring  light aggregate concrete  bentonite
基金项目:
作者单位
黄颖军 西北核技术研究所, 西安 710024 
楼淼 西北核技术研究所, 西安 710024 
李莎莎 西北核技术研究所, 西安 710024 
芦玉峰 西北核技术研究所, 西安 710024 
AuthorInstitution
HUANG Ying-jun North-west Institute of Nuclear Technology, Xi'an 710024, China 
LOU Miao North-west Institute of Nuclear Technology, Xi'an 710024, China 
LI Sha-sha North-west Institute of Nuclear Technology, Xi'an 710024, China 
LU Yu-feng North-west Institute of Nuclear Technology, Xi'an 710024, China 
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中文摘要:
      目的 介绍耦合多电极矩阵传感技术的工作原理及系统组成,研究16MnR 钢在轻集料混凝土和膨润土填埋环境下的腐蚀规律。 方法 将腐蚀探头埋于轻集料混凝土和膨润土两种户外填埋环境中,研究 16MnR 钢在两种环境中的腐蚀规律;采用实验室包裹块形式进行干湿交替加速腐蚀,研究加速试验方法的加速效果。 结果 16MnR 钢在膨润土和轻集料混凝土中的年平均局部腐蚀速率分别为 23. 7 μm/ a和 0. 11 μm/ a;在干湿交替加速腐蚀条件下,膨润土环境的平均腐蚀速率为 109. 1 μm/ a,轻集料混凝土环境的平均局部腐蚀速为 1. 7 μm/ a。 结论 16MnR 钢在膨润土环境下的局部腐蚀速率与环境温度的变化趋势相同;轻集料混凝土对 16MnR 钢的腐蚀防护效果优于膨润土。 采用干湿交替加速腐蚀方法,16MnR钢在轻集料混凝土和膨润土环境的腐蚀效果分别提高了 17 倍和 5 倍。
英文摘要:
      Objective To introduce the operating principle and system composition of coupled multielectrode array sensors (CMAS) , and study the corrosion law of 16MnR steels buried in light aggregate concrete and bentonite. Methods The corrosion monitors were buried in outdoor environments of light aggregate concrete and bentonite, to study the corrosion law of 16MnR steels in these two surroundings. The speedup of dry-wet alternate accelerated corrosion was studied in lab by burying the detectors in laboratory wrapped pieces. Results The annual average localized corrosion rate of 16MnR steels was 23. 7 μm/ a and 0. 1 μm/ a in bentonite and light aggregate concrete, respectively. The average localized corrosion rate of 16MnR steels in bentonite and light aggregate concrete was 109. 1 μm/ a and 1. 7 μm/ a respectively by dry-wet alternate accelerated corrosion. Conclusion The localized corrosion rate of 16MnR steels in bentonite changed with the environment temperature. The light aggregate concrete had better corrosion prevention effect than bentonite on 16MnR steels. The accelerated ratios of dry-wet alternate accelerated corrosion were approximately 17 and 5 in light aggregate concrete and bentonite, respectively.
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