表面技术
錶麵技術
표면기술
SURFACE TECHNOLOGY
2014年
4期
48-51,58
,共5页
鲁闯%朱利萍%王志锋%亢彪
魯闖%硃利萍%王誌鋒%亢彪
로틈%주리평%왕지봉%항표
镁合金%抑弧氧化%耐蚀性%耐磨性
鎂閤金%抑弧氧化%耐蝕性%耐磨性
미합금%억호양화%내식성%내마성
magnesium alloy%restraining micro-arc oxidation%corrosion resistance%wear resistance
目的:了解镁合金抑弧氧化膜层的结构、成分及性能。方法在含有机胺的碱性电解液中,对AZ80镁合金进行抑弧氧化,采用扫描电子显微镜分析、X 射线能谱分析、电化学极化曲线测试、摩擦磨损实验等手段测定氧化膜层的结构组成及耐蚀、耐磨性能。结果镁合金抑弧氧化膜层呈双层结构,表层疏松多孔,底层致密。疏松层的摩擦系数在0.2以下,致密层的摩擦系数约为0.8。镁合金经抑弧氧化处理后,腐蚀电位比氧化前仅略有降低,但腐蚀电流密度降低显著。结论抑弧氧化膜降低了镁合金材料的腐蚀速率,提高了其耐蚀、耐磨性能。
目的:瞭解鎂閤金抑弧氧化膜層的結構、成分及性能。方法在含有機胺的堿性電解液中,對AZ80鎂閤金進行抑弧氧化,採用掃描電子顯微鏡分析、X 射線能譜分析、電化學極化麯線測試、摩抆磨損實驗等手段測定氧化膜層的結構組成及耐蝕、耐磨性能。結果鎂閤金抑弧氧化膜層呈雙層結構,錶層疏鬆多孔,底層緻密。疏鬆層的摩抆繫數在0.2以下,緻密層的摩抆繫數約為0.8。鎂閤金經抑弧氧化處理後,腐蝕電位比氧化前僅略有降低,但腐蝕電流密度降低顯著。結論抑弧氧化膜降低瞭鎂閤金材料的腐蝕速率,提高瞭其耐蝕、耐磨性能。
목적:료해미합금억호양화막층적결구、성분급성능。방법재함유궤알적감성전해액중,대AZ80미합금진행억호양화,채용소묘전자현미경분석、X 사선능보분석、전화학겁화곡선측시、마찰마손실험등수단측정양화막층적결구조성급내식、내마성능。결과미합금억호양화막층정쌍층결구,표층소송다공,저층치밀。소송층적마찰계수재0.2이하,치밀층적마찰계수약위0.8。미합금경억호양화처리후,부식전위비양화전부략유강저,단부식전류밀도강저현저。결론억호양화막강저료미합금재료적부식속솔,제고료기내식、내마성능。
Objective To investigate the microstructure, composition and properties of restraining Micro-arc oxidation film on AZ80. Methods The microstructure and the resistance to corrosion and wear of ceramic film formed in alkaline electrolyte contai-ning amine by restraining Micro-arc oxidation were studied by SEM, EDS, polarization curve and friction-wear test. Results The results showed that the films which were more resistant to corrosion consisted of two layers, a dense layer and a loose layer. The coefficients of friction of the loose layer and the dense layer were 0. 2 and 0. 8, respectively. Conclusion The corrosion rate of magnesium alloy was reduced, and the resistance to corrosion and wear of magnesium alloy was improved by restraining Micro-arc oxidation.
