电镀与涂饰
電鍍與塗飾
전도여도식
ELECTROPLATING & FINISHING
2015年
9期
480-486
,共7页
铝合金%化学转化膜%三价铬%耐蚀性%盐雾试验
鋁閤金%化學轉化膜%三價鉻%耐蝕性%鹽霧試驗
려합금%화학전화막%삼개락%내식성%염무시험
aluminum alloy%chemical conversion coating%trivalent chromium%corrosion resistance%salt spray test
通过动电位极化曲线、电化学交流阻抗谱(EIS)及盐雾腐蚀试验研究了Cr2(SO4)3浓度、成膜温度和成膜液pH等工艺参数对2024-T3铝合金表面三价铬化学转化膜耐蚀性能的影响,采用扫描电镜(SEM)及能谱(EDS)对转化膜的表面形貌及其沉积元素进行表征,并以X射线光电子能谱(XPS)分析了转化膜中铬元素的价态。结果表明,优化的工艺条件为:Cr2(SO4)35 g/L,K2ZrF62 g/L,成膜液pH=4,成膜温度40°C。在此条件下制备的三价铬转化膜具有较好的耐蚀性能,转化膜中不含六价铬。
通過動電位極化麯線、電化學交流阻抗譜(EIS)及鹽霧腐蝕試驗研究瞭Cr2(SO4)3濃度、成膜溫度和成膜液pH等工藝參數對2024-T3鋁閤金錶麵三價鉻化學轉化膜耐蝕性能的影響,採用掃描電鏡(SEM)及能譜(EDS)對轉化膜的錶麵形貌及其沉積元素進行錶徵,併以X射線光電子能譜(XPS)分析瞭轉化膜中鉻元素的價態。結果錶明,優化的工藝條件為:Cr2(SO4)35 g/L,K2ZrF62 g/L,成膜液pH=4,成膜溫度40°C。在此條件下製備的三價鉻轉化膜具有較好的耐蝕性能,轉化膜中不含六價鉻。
통과동전위겁화곡선、전화학교류조항보(EIS)급염무부식시험연구료Cr2(SO4)3농도、성막온도화성막액pH등공예삼수대2024-T3려합금표면삼개락화학전화막내식성능적영향,채용소묘전경(SEM)급능보(EDS)대전화막적표면형모급기침적원소진행표정,병이X사선광전자능보(XPS)분석료전화막중락원소적개태。결과표명,우화적공예조건위:Cr2(SO4)35 g/L,K2ZrF62 g/L,성막액pH=4,성막온도40°C。재차조건하제비적삼개락전화막구유교호적내식성능,전화막중불함륙개락。
The influence of process parameters including Cr2(SO4)3 concentration, film-forming temperature, and solution pH on the corrosion resistance of trivalent chromium chemical conversion coating on surface of 2024-T3 aluminum alloy was studied by potentiodynamic polarization curve measurement, electrochemical impedance spectroscopy (EIS), and salt spray corrosion test. The surface morphology and deposited elements of the conversion coating were characterized by scanning electron microscope (SEM) and energy-dispersive spectrometer (EDS). The valence of chromium element in the conversion coating was analyzed by X-ray photoelectron spectroscopy (XPS). The optimized process conditions are as follows:Cr2(SO4)3 5 g/L, K2ZrF6 2 g/L, film-forming temperature 40 °C, and pH 4. The trivalent chromium conversion coating prepared under the above conditions has good corrosion resistance and is free of hexavalent chromium.
