表面技术
錶麵技術
표면기술
SURFACE TECHNOLOGY
2014年
6期
121-124
,共4页
李忠厚%郭腾腾%宫学博%马芹芹%杨迪
李忠厚%郭騰騰%宮學博%馬芹芹%楊迪
리충후%곽등등%궁학박%마근근%양적
AZ31镁合金%磁控溅射%镀钛%耐磨性%耐蚀性
AZ31鎂閤金%磁控濺射%鍍鈦%耐磨性%耐蝕性
AZ31미합금%자공천사%도태%내마성%내식성
AZ31 magnesium alloy%magnetron sputtering%Ti plating%wear resistance%corrosion resistance
目的提高AZ31镁合金的耐磨及耐腐蚀性能。方法采用磁控溅射技术对镁合金进行表面镀钛处理,用扫描电镜研究膜基界面形貌及界面成分,分析结合性能。通过摩擦磨损试验,对比分析镁合金基体和镀Ti膜样品的耐磨性能;通过Tafel极化曲线,对比分析镁合金基体和镀Ti膜样品的耐蚀性能。结果Ti膜均匀致密,与镁合金基体结合良好。镁合金镀Ti膜后,摩擦系数和磨损失重率下降,腐蚀电位向正方向移动了430 mV,腐蚀电流密度从10.83 mA/cm2下降到2.62×10-7 mA/cm2。结论磁控溅射镀Ti膜提高了AZ31镁合金的耐磨和耐蚀性能。
目的提高AZ31鎂閤金的耐磨及耐腐蝕性能。方法採用磁控濺射技術對鎂閤金進行錶麵鍍鈦處理,用掃描電鏡研究膜基界麵形貌及界麵成分,分析結閤性能。通過摩抆磨損試驗,對比分析鎂閤金基體和鍍Ti膜樣品的耐磨性能;通過Tafel極化麯線,對比分析鎂閤金基體和鍍Ti膜樣品的耐蝕性能。結果Ti膜均勻緻密,與鎂閤金基體結閤良好。鎂閤金鍍Ti膜後,摩抆繫數和磨損失重率下降,腐蝕電位嚮正方嚮移動瞭430 mV,腐蝕電流密度從10.83 mA/cm2下降到2.62×10-7 mA/cm2。結論磁控濺射鍍Ti膜提高瞭AZ31鎂閤金的耐磨和耐蝕性能。
목적제고AZ31미합금적내마급내부식성능。방법채용자공천사기술대미합금진행표면도태처리,용소묘전경연구막기계면형모급계면성분,분석결합성능。통과마찰마손시험,대비분석미합금기체화도Ti막양품적내마성능;통과Tafel겁화곡선,대비분석미합금기체화도Ti막양품적내식성능。결과Ti막균균치밀,여미합금기체결합량호。미합금도Ti막후,마찰계수화마손실중솔하강,부식전위향정방향이동료430 mV,부식전류밀도종10.83 mA/cm2하강도2.62×10-7 mA/cm2。결론자공천사도Ti막제고료AZ31미합금적내마화내식성능。
ABSTRACT:Objective To improve the wear resistance and corrosion resistance of AZ31 magnesium alloy. Methods Ti film was successfully deposited on the surface of AZ31 using magnetron sputtering technology. The morphology and component of the inter-face of the film and the substrate were studied by scan electronic microscopy ( SEM ) and the binding energy of the film and the substrate was analyzed. The wear resistances of the blank magnesium alloy and the titanized samples were contrastively analyzed by the friction and wear test, and the corrosion resistances of the blank magnesium alloy and the titanized samples were contrastively analyzed by the electronic-chemical workstation. Results The film layer was compact and uniform, and bound well with the sub-strate. The friction coefficient and wear weight-loss rate declined. The corrosion potential shifted by+430 mV to the positive direc-tion, and the corrosion current density decreased from 10. 83 mA/cm2 to 2. 62í10-7 mA/cm2 after the magnesium alloy was plated with Ti film. Conclusion The wear resistance and corrosion resistance of AZ31 magnesium alloy were improved by magnetron sput-tering Ti.