表面技术
錶麵技術
표면기술
SURFACE TECHNOLOGY
2010年
1期
41-44
,共4页
李姝%董寅生%盛晓波%郭超%储成林
李姝%董寅生%盛曉波%郭超%儲成林
리주%동인생%성효파%곽초%저성림
医用镁合金%AZ31镁合金%复合膜层%阳极氧化%化学转化
醫用鎂閤金%AZ31鎂閤金%複閤膜層%暘極氧化%化學轉化
의용미합금%AZ31미합금%복합막층%양겁양화%화학전화
Biomedical AZ31%Composite coating%Anodic oxidation%Chemical conversion
为改善医用AZ31镁合金的抗蚀性能,综合应用阳极氧化及化学转化工艺在其表面制备了复合膜层.通过扫描电镜观察了膜层形貌,X射线衍射分析了膜层成分,并利用电化学测试手段对膜层性能进行了表征.结果表明,阳极氧化工艺制备的膜层粗糙不平,主要组成为Mg(OH)_2及Al_2O_3;经化学转化后,所得复合膜较为致密、平整,膜层中主要含元素N,O,P.动电位极化曲线分析表明,复合膜对AZ31镁合金具有显著的保护作用.EIS阻抗图谱拟合电路反映出制备的复合膜层具有4层结构,从侧面证明了阳极氧化膜与化学转化膜之间的化学结合作用.
為改善醫用AZ31鎂閤金的抗蝕性能,綜閤應用暘極氧化及化學轉化工藝在其錶麵製備瞭複閤膜層.通過掃描電鏡觀察瞭膜層形貌,X射線衍射分析瞭膜層成分,併利用電化學測試手段對膜層性能進行瞭錶徵.結果錶明,暘極氧化工藝製備的膜層粗糙不平,主要組成為Mg(OH)_2及Al_2O_3;經化學轉化後,所得複閤膜較為緻密、平整,膜層中主要含元素N,O,P.動電位極化麯線分析錶明,複閤膜對AZ31鎂閤金具有顯著的保護作用.EIS阻抗圖譜擬閤電路反映齣製備的複閤膜層具有4層結構,從側麵證明瞭暘極氧化膜與化學轉化膜之間的化學結閤作用.
위개선의용AZ31미합금적항식성능,종합응용양겁양화급화학전화공예재기표면제비료복합막층.통과소묘전경관찰료막층형모,X사선연사분석료막층성분,병이용전화학측시수단대막층성능진행료표정.결과표명,양겁양화공예제비적막층조조불평,주요조성위Mg(OH)_2급Al_2O_3;경화학전화후,소득복합막교위치밀、평정,막층중주요함원소N,O,P.동전위겁화곡선분석표명,복합막대AZ31미합금구유현저적보호작용.EIS조항도보의합전로반영출제비적복합막층구유4층결구,종측면증명료양겁양화막여화학전화막지간적화학결합작용.
In order to improve corrosion resistance of AZ31 magnesium alloy for biomedical application, a composite coating was prepared on AZ31 with the combination of applications of anodic oxidation and chemical conversion technology. The morphology of the coating was observed by SEM and its phases was analyzed by XRD while its property was characterized by electrochemical testing instrument. It is showed that the first coating prepared by anodic oxidation is rough and uneven observed, composed mainly by Mg(OH)_2 and Al_2O_3; After chemical conversion, the final composite coating is dense and even, showing proper contents of N, O, P. The potentiodynamic polarization curve demonstrates that the composite coating reduced corrosive rate of AZ31 magnesium alloy evidently. And the simulated circuit of the electrochemical impedance spectroscopy reveals the four-layer structure of the prepared composite coating, proving indirectly the chemical bonding between the anodic oxidized coating and the chemical conversion coating.
