材料保护
材料保護
재료보호
MATERIALS PROTECTION
2010年
1期
1-4
,共4页
黄佳木%罗先盛%邹阳%孟曦
黃佳木%囉先盛%鄒暘%孟晞
황가목%라선성%추양%맹희
磁控溅射%金属膜%复合薄膜%镁合金%腐蚀
磁控濺射%金屬膜%複閤薄膜%鎂閤金%腐蝕
자공천사%금속막%복합박막%미합금%부식
magnetron sputtering%metallic films%composite films%magnesium alloy%corrosion
镁合金表面沉积薄膜可以提高其耐蚀性,但现有的几种沉积方法得到的膜疏松、与基体结合力差,影响了其耐腐蚀性能.为此,采用磁控溅射法在AZ31镁合金表面制备了Al,Zr,Ti膜及其与SiN_x的复合薄膜.用扫描电镜、X射线衍射、XPS研究了金属膜及其与SiNi_x复合薄膜的晶体结构、表面形貌和化学成分.结果表明:所制备的SiN_x薄膜为非晶态的富N膜;Zr膜的耐腐蚀性最好,Al膜的保护性最差;Zr-SiN_x复合薄膜比AZ31镁合金的腐蚀电流密度降低了3个数量级,Ti-SiN_x复合薄膜在阳极极化区出现了钝化.SiN_x复合薄膜的耐腐蚀性优于AZ31镁合金和单一金属膜.
鎂閤金錶麵沉積薄膜可以提高其耐蝕性,但現有的幾種沉積方法得到的膜疏鬆、與基體結閤力差,影響瞭其耐腐蝕性能.為此,採用磁控濺射法在AZ31鎂閤金錶麵製備瞭Al,Zr,Ti膜及其與SiN_x的複閤薄膜.用掃描電鏡、X射線衍射、XPS研究瞭金屬膜及其與SiNi_x複閤薄膜的晶體結構、錶麵形貌和化學成分.結果錶明:所製備的SiN_x薄膜為非晶態的富N膜;Zr膜的耐腐蝕性最好,Al膜的保護性最差;Zr-SiN_x複閤薄膜比AZ31鎂閤金的腐蝕電流密度降低瞭3箇數量級,Ti-SiN_x複閤薄膜在暘極極化區齣現瞭鈍化.SiN_x複閤薄膜的耐腐蝕性優于AZ31鎂閤金和單一金屬膜.
미합금표면침적박막가이제고기내식성,단현유적궤충침적방법득도적막소송、여기체결합력차,영향료기내부식성능.위차,채용자공천사법재AZ31미합금표면제비료Al,Zr,Ti막급기여SiN_x적복합박막.용소묘전경、X사선연사、XPS연구료금속막급기여SiNi_x복합박막적정체결구、표면형모화화학성분.결과표명:소제비적SiN_x박막위비정태적부N막;Zr막적내부식성최호,Al막적보호성최차;Zr-SiN_x복합박막비AZ31미합금적부식전류밀도강저료3개수량급,Ti-SiN_x복합박막재양겁겁화구출현료둔화.SiN_x복합박막적내부식성우우AZ31미합금화단일금속막.
Thin films of Al, Zr, Ti and metal-SiN_x were deposited on AZ31 magnesium alloy by magnetron sputtering. The surface morphology, crystalline structure and chemical composition of the films were analyzed by means of scanning electron microscopy, X-ray diffraction and X-ray photoelectron spectroscopy. The corrosion resistance of the films was evaluated by using electrochemical methods. Results show that SiN_x films are amorphous and nitride-rich. Zr film had the best corrosion resistance, while Al film had the worst protective ability for Mg alloy substrate. Moreover, the corrosion current density of Zr-SiN. film was lower than that of Mg alloy substrate by three orders of magnitude, while Ti-SiN_x film was passivated in anodic polarization zone. In one word, SiN_x composite film showed better corrosion resistance than Mg alloy substrate and single component metallic films thereon as well.