表面技术
錶麵技術
표면기술
SURFACE TECHNOLOGY
2015年
5期
38-42
,共5页
张贺宏%张晓丰%赵旭辉%唐聿明%左禹
張賀宏%張曉豐%趙旭輝%唐聿明%左禹
장하굉%장효봉%조욱휘%당율명%좌우
铝合金%转化膜%封闭处理%耐蚀性
鋁閤金%轉化膜%封閉處理%耐蝕性
려합금%전화막%봉폐처리%내식성
aluminum alloy%conversion coating%sealing treatment%corrosion resistance
目的:研究铝合金表面非铬酸盐高耐蚀性转化膜的制备工艺。方法以K2 ZrF6和K2 TiF6为主盐,KMnO4为氧化剂,NaF为成膜促进剂,在5052铝合金表面制备化学转化膜。采用SEM,EDS,FT-IR, XPS对转化膜的形貌、结构以及成分进行分析,通过硫酸铜点滴实验、全浸蚀实验和极化曲线对转化膜的耐蚀性进行研究。结果获得了土黄色转化膜,主要由AlF3·3H2 O,AlOx/Al,Al2 O3,MnO2和TiO2组成。转化处理后,铝合金的腐蚀电位正移了约591 mV,腐蚀电流密度由1.10μA/cm2降低为0.48μA/cm2。经过封闭处理后,腐蚀电流密度降低为0.04μA/cm2,耐蚀性明显提高。结论以K2 ZrF6和K2 TiF6为主盐在铝合金表面形成的土黄色化学转化膜具有良好的耐蚀性。
目的:研究鋁閤金錶麵非鉻痠鹽高耐蝕性轉化膜的製備工藝。方法以K2 ZrF6和K2 TiF6為主鹽,KMnO4為氧化劑,NaF為成膜促進劑,在5052鋁閤金錶麵製備化學轉化膜。採用SEM,EDS,FT-IR, XPS對轉化膜的形貌、結構以及成分進行分析,通過硫痠銅點滴實驗、全浸蝕實驗和極化麯線對轉化膜的耐蝕性進行研究。結果穫得瞭土黃色轉化膜,主要由AlF3·3H2 O,AlOx/Al,Al2 O3,MnO2和TiO2組成。轉化處理後,鋁閤金的腐蝕電位正移瞭約591 mV,腐蝕電流密度由1.10μA/cm2降低為0.48μA/cm2。經過封閉處理後,腐蝕電流密度降低為0.04μA/cm2,耐蝕性明顯提高。結論以K2 ZrF6和K2 TiF6為主鹽在鋁閤金錶麵形成的土黃色化學轉化膜具有良好的耐蝕性。
목적:연구려합금표면비락산염고내식성전화막적제비공예。방법이K2 ZrF6화K2 TiF6위주염,KMnO4위양화제,NaF위성막촉진제,재5052려합금표면제비화학전화막。채용SEM,EDS,FT-IR, XPS대전화막적형모、결구이급성분진행분석,통과류산동점적실험、전침식실험화겁화곡선대전화막적내식성진행연구。결과획득료토황색전화막,주요유AlF3·3H2 O,AlOx/Al,Al2 O3,MnO2화TiO2조성。전화처리후,려합금적부식전위정이료약591 mV,부식전류밀도유1.10μA/cm2강저위0.48μA/cm2。경과봉폐처리후,부식전류밀도강저위0.04μA/cm2,내식성명현제고。결론이K2 ZrF6화K2 TiF6위주염재려합금표면형성적토황색화학전화막구유량호적내식성。
Objective To study the preparation process of the chromate-free conversion treatment on aluminum alloys. Methods The chemical conversion coating was prepared with K2 ZrF6 and K2 TiF6 as the main salt, KMnO4 as the oxidant and NaF as the ac-celerant. The surface morphology, structure and composition were analyzed by SEM, EDS, FT-IR, and XPS. The corrosion resist-ance of conversion coating was studied by copper sulfate dropping, salt water immersion and polarization curve. Results The pre-pared yellow conversion coating mainly consisted of AlF3 ·3H2 O, AlOx/Al, Al2 O3 , MnO2 , and TiO2 . The corrosion potential of the Al alloy sample was positively shifted about 591 mV and the corrosion current density was dropped from 1. 10 μA/cm2 to 0. 48μA/cm2 after conversion treatment. After sealing treatment, the corrosion current density further decreased to 0. 04 μA/cm2 and the corrosion resistance was significantly improved. Conclusion The conversion coating, which was prepared with K2 ZrF6 and K2 TiF6 as the main salt, had good corrosion resistance.
