镁合金在大气环境中的电偶腐蚀
Galvanic corrosion of magnesium alloys in atmospheric environment
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摘要: 研究了AZ91D,AM50,AM60三种镁合金分别与0235碳钢、316L不锈钢、H62黄铜、LY12铝合金4种材料组成电偶对在青岛和武汉大气暴晒实验场进行周期分别为3,6,15,20,27个月的大气腐蚀行为及规律.结果表明,镁合金作为电偶对的阳极其腐蚀速率在与实验所用材料偶接后显著提升.其中,与Q235碳钢、316L不锈钢偶接后大气电偶腐蚀效应最大,而与LY12铝合金偶接后大气电偶腐蚀效应最小.青岛站镁合金试样的大气电偶腐蚀效应要明显高于武汉站的试样.不同镁合金的大气电偶腐蚀效应γ之间存在的基本关系为AZ91D最大,AM50最小.Abstract: This paper investigated the galvanic corrosion behavior and laws of AZ91D, AM50 and AM60 cast magnesium alloys coupled with four materials of Q235 carbon steel, H62 brass, 316L stainless steel and LY12 aluminum alloy under atmospheric exposure in Qingdao and Wuhan of China for three, six, fifteen, twenty, twenty-seven months. The results show that the magnesium alloys act as the anode and their corrosion rates obviously increase when coupled with the four materials used in this test. The atmospheric galvanic effects of the magnesium alloys coupled with Q235 carbon steel and 316L stainless steel are larger than those of others, while that of the magnesium alloy/LY12 aluminum alloy couple is the smallest. The atmospheric galvanic effect in Qingdao is obviously higher than in Wuhan. Among the experimental magnesium alloys the maximum atmospheric galvanic effect was found in the test of AZ91D, while AM50 the minimum.