表面技术
錶麵技術
표면기술
SURFACE TECHNOLOGY
2015年
2期
34-37,133
,共5页
刘秋月%张修庆%浦海洲%徐金鹏
劉鞦月%張脩慶%浦海洲%徐金鵬
류추월%장수경%포해주%서금붕
AZ91 D镁合金%Ni-P镀层%Ni-P/Ni-Sn-P双镀层%耐腐蚀性能
AZ91 D鎂閤金%Ni-P鍍層%Ni-P/Ni-Sn-P雙鍍層%耐腐蝕性能
AZ91 D미합금%Ni-P도층%Ni-P/Ni-Sn-P쌍도층%내부식성능
AZ91D magnesium alloy%Ni-P coating%Ni-P/Ni-Sn-P duplex coatings%corrosion resistance
目的:提高AZ91 D镁合金的耐腐蚀性能,扩大其应用范围。方法先在AZ91 D镁合金表面化学镀Ni-P镀层,再化学镀Ni-Sn-P镀层,形成Ni-P/Ni-Sn-P双镀层。研究Ni-P/Ni-Sn-P双镀层的表面形貌和耐腐蚀性能,并与Ni-P单镀层进行对比。结果 Ni-P/Ni-Sn-P双镀层表面分布更均匀平整,缺陷较少,孔隙率较低,具有无定形结构。二次Ni-Sn-P镀层的腐蚀电位约为-0.77 V,略低于一次化学镀Ni-P层(约-0.68 V),两镀层间的电位差使得其构成了微腐蚀电偶,Ni-P层作为阴极,Ni-Sn-P层作为阳极,阳极优先被腐蚀。结论 Ni-P/Ni-Sn-P双镀层的Ni-Sn-P外层能为Ni-P内层提供阴极保护,较好地横向分散腐蚀电流,从而增强AZ91 D镁合金基底的耐腐蚀性能。
目的:提高AZ91 D鎂閤金的耐腐蝕性能,擴大其應用範圍。方法先在AZ91 D鎂閤金錶麵化學鍍Ni-P鍍層,再化學鍍Ni-Sn-P鍍層,形成Ni-P/Ni-Sn-P雙鍍層。研究Ni-P/Ni-Sn-P雙鍍層的錶麵形貌和耐腐蝕性能,併與Ni-P單鍍層進行對比。結果 Ni-P/Ni-Sn-P雙鍍層錶麵分佈更均勻平整,缺陷較少,孔隙率較低,具有無定形結構。二次Ni-Sn-P鍍層的腐蝕電位約為-0.77 V,略低于一次化學鍍Ni-P層(約-0.68 V),兩鍍層間的電位差使得其構成瞭微腐蝕電偶,Ni-P層作為陰極,Ni-Sn-P層作為暘極,暘極優先被腐蝕。結論 Ni-P/Ni-Sn-P雙鍍層的Ni-Sn-P外層能為Ni-P內層提供陰極保護,較好地橫嚮分散腐蝕電流,從而增彊AZ91 D鎂閤金基底的耐腐蝕性能。
목적:제고AZ91 D미합금적내부식성능,확대기응용범위。방법선재AZ91 D미합금표면화학도Ni-P도층,재화학도Ni-Sn-P도층,형성Ni-P/Ni-Sn-P쌍도층。연구Ni-P/Ni-Sn-P쌍도층적표면형모화내부식성능,병여Ni-P단도층진행대비。결과 Ni-P/Ni-Sn-P쌍도층표면분포경균균평정,결함교소,공극솔교저,구유무정형결구。이차Ni-Sn-P도층적부식전위약위-0.77 V,략저우일차화학도Ni-P층(약-0.68 V),량도층간적전위차사득기구성료미부식전우,Ni-P층작위음겁,Ni-Sn-P층작위양겁,양겁우선피부식。결론 Ni-P/Ni-Sn-P쌍도층적Ni-Sn-P외층능위Ni-P내층제공음겁보호,교호지횡향분산부식전류,종이증강AZ91 D미합금기저적내부식성능。
ABSTRACT:Objective To improve the corrosion resistance of AZ91D magnesium alloy and expand the range of application. Methods Ni-P coating was first prepared on AZ91D magnesium alloy by electroless plating, then Ni-Sn-P coating was prepared on this basis, forming Ni-P/Ni-Sn-P duplex coatings. The microstructure and corrosion resistance of Ni-P/Ni-Sn-P duplex coatings were investigated and compared with those of Ni-P coating. Results The results showed that the surface of Ni-P/Ni-Sn-P duplex coatings was more uniform, compact, with fewer defects, lower porosity and amorphous structure. The corrosion potential of the secondary Ni-Sn-P coating was about -0. 77 V, which was lower than that of the first Ni-P coating (-0. 68 V). The potential difference between the two coatings formed micro etching point, with Ni-P coating as the cathode, and Ni-Sn-P coating as the an-ode, and the anode was corroded first. Conclusion The outer layer of Ni-Sn-P coating in the Ni-P/Ni-Sn-P duplex coatings could protect the first Ni-P coating from corroding and diffuse the corrosion current in the horizontal direction, thus greatly enhancing the corrosion resistance of AZ91D magnesium alloy.