赵永岗,吕红军,曾小莉.铝合金硫酸阳极化耐蚀性试验失败原因分析[J].装备环境工程,2018,15(7):15-19. ZHAO Yong-gang,LYU Hong-jun,ZENG Xiao-li.Failure of Anodized Aluminum Corrosion Resistance Test[J].Equipment Environmental Engineering,2018,15(7):15-19. |
铝合金硫酸阳极化耐蚀性试验失败原因分析 |
Failure of Anodized Aluminum Corrosion Resistance Test |
投稿时间:2018-04-04 修订日期:2018-07-25 |
DOI:10.7643/ issn.1672-9242.2018.07.004 |
中文关键词: 铝合金 硫酸阳极化 耐蚀性 |
英文关键词:aluminum alloy sulfuric anodizing corrosion resistance |
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中文摘要: |
目的 分析铝合金硫酸阳极化耐蚀性失败的原因。方法 从试片、阳极化工艺参数、槽液中杂质等方面分析并进行工艺试验。结果 硫酸阳极化耐蚀性试验失败,不是单一原因造成的,而是由于试片基材缺陷、 硫酸槽液 Cu2+含量高、封闭槽液被污染的共同作用下导致的。结论 试片表面完整、无破损无腐蚀,试片表面清洗彻底,以及控制硫酸槽液中c(Cu2+)≤0.02 g/L,封闭槽液中c(Fe2+)≤0.001 g/L、 c(Al3+)≤0.01 g/L、 c(Zn2+) ≤0.0001 g/L,可明显改善阳极化膜层质量,提高硫酸阳极化耐蚀性试验的合格率。 |
英文摘要: |
Objective To analyze causes for failure of sulfuric acid anodizing aluminum alloy corrosion resistance test. Methods Technological test was carried out from specimen, anodization process parameters, impurities in bath, etc. Results The failure of corrosion resistance test for sulfuric acid anodizing is not caused by a single reason, but by the joint action of defective specimen base material, high Cu2+ content of sulfur acid tank liquid and polluted closed slot liquid. Conclusion The specimen surface is intact and is free from damage or corrosion. After the specimen surface is cleaned thoroughly, control of sulfur acid tank liquid at Cu2+ 0.02 g/L or less, and closed tank liquid at Fe2+ 0.001 g/L or less, Al3+ 0.01 g/L or less, Zn2+ 0.0001 g/L or less, can obviously improve the quality of anodized film layer and improve the qualified rate of sulfuric acid anodizing corrosion resistance test. |
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