稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2009年
z2期
731-734
,共4页
陈东初%李文芳%揭军%彭继华
陳東初%李文芳%揭軍%彭繼華
진동초%리문방%게군%팽계화
镁合金%微弧氧化%陶瓷膜%微观结构
鎂閤金%微弧氧化%陶瓷膜%微觀結構
미합금%미호양화%도자막%미관결구
magnesium alloy%micro-arc oxidation%ceramic coating%microstructure
采用自制的恒流非对称方波电源用微弧氧化法在AZ91D镁合金表面制备了耐腐蚀陶瓷膜,通过微观分析手段对微弧氧化膜的截面特征、元素成分分布及表面膜的相组成进行了分析,研究了微弧氧化工艺参数对膜层表面形貌、微观结构与组成等的影响.结果表明,提高电流密度会造成组织疏松微孔孔径增大;硅酸盐溶液中微弧氧化制得的陶瓷膜优于铝酸盐溶液.而且电解液中的离子可参与成膜反应,硅酸盐溶液体系镁合金微弧氧化陶瓷层主要由MgO和Mg_2SiO_4相组成,铝酸盐溶液体系微弧氧化膜层主要由MgAl_2O_4相组成.
採用自製的恆流非對稱方波電源用微弧氧化法在AZ91D鎂閤金錶麵製備瞭耐腐蝕陶瓷膜,通過微觀分析手段對微弧氧化膜的截麵特徵、元素成分分佈及錶麵膜的相組成進行瞭分析,研究瞭微弧氧化工藝參數對膜層錶麵形貌、微觀結構與組成等的影響.結果錶明,提高電流密度會造成組織疏鬆微孔孔徑增大;硅痠鹽溶液中微弧氧化製得的陶瓷膜優于鋁痠鹽溶液.而且電解液中的離子可參與成膜反應,硅痠鹽溶液體繫鎂閤金微弧氧化陶瓷層主要由MgO和Mg_2SiO_4相組成,鋁痠鹽溶液體繫微弧氧化膜層主要由MgAl_2O_4相組成.
채용자제적항류비대칭방파전원용미호양화법재AZ91D미합금표면제비료내부식도자막,통과미관분석수단대미호양화막적절면특정、원소성분분포급표면막적상조성진행료분석,연구료미호양화공예삼수대막층표면형모、미관결구여조성등적영향.결과표명,제고전류밀도회조성조직소송미공공경증대;규산염용액중미호양화제득적도자막우우려산염용액.이차전해액중적리자가삼여성막반응,규산염용액체계미합금미호양화도자층주요유MgO화Mg_2SiO_4상조성,려산염용액체계미호양화막층주요유MgAl_2O_4상조성.
A crossion-resistance ceramic coating was prepared on AZ91D magnesium alloy by micro-arc oxidation method with an asymmetric ac power supply. Silicate-based and aluminate-based electrolyte were adopted in the micro-arc oxidation process, and it shows that the coating formed in silicate solution is more continuous and compact than that formed in aluminates solution. In order to understand the effect of processing parameters upon the micro characteristics of the formed ceramic coating, many micro-analytical methods of SEM, EDS and XRD were used to study the morphology and microstructure of the ceramic coating. It was found that the coating consists of two layers, i.e., loose layer and compact layer, and the elevated current density will lead to the increment of micropore size in loose layer. The compositions and phase structures varied with the electrolyte components, and it was also known that the micro-arc oxidation coating prepared in silicate solution is composed of MgO and Mg_2SiO_4, while the coating prepared in aluminate is mainly composed of MgAl_2O_4.