功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
17期
2273-2277
,共5页
杜军%盘艳红%李文芳%穆松林%黄筑艳
杜軍%盤豔紅%李文芳%穆鬆林%黃築豔
두군%반염홍%리문방%목송림%황축염
镁合金%Ce-Mn转化膜%成膜时间%耐蚀性
鎂閤金%Ce-Mn轉化膜%成膜時間%耐蝕性
미합금%Ce-Mn전화막%성막시간%내식성
magnesium alloy%Ce-Mn conversion coating%processing time%corrosion resistance
以四硼酸钠为添加剂,Ce(NO3)3-KMnO4为主要成膜剂,室温下在AZ91镁合金表面制备了Ce-Mn转化膜。基于优化的成膜剂浓度比,主要研究了成膜时间对膜层组织和耐蚀性的影响。结果表明转化膜层主要由O、Mg、Al、Mn、Ce等元素组成,随成膜时间延长,膜层不断增厚,且产生裂纹甚至膜层剥落。Ce(NO3)3/KMnO4浓度比较低时成膜速率较慢,膜层中Ce/Mn原子较小,但膜层的电化学性能较优。开路电位随成膜时间延长呈现先急剧增大,后缓慢增加并在2min后趋于平稳的趋势。室温下处理2min即可获得组织致密且耐腐蚀性能较好的转化膜,与基体相比,经配方A和B成膜后的试样,其自腐蚀电流密度由34.099μA/cm2分别下降到0.822和1.367μA/cm2,电阻由0.64kΩ.cm2分别增大到32.01和20.96kΩ.cm2。
以四硼痠鈉為添加劑,Ce(NO3)3-KMnO4為主要成膜劑,室溫下在AZ91鎂閤金錶麵製備瞭Ce-Mn轉化膜。基于優化的成膜劑濃度比,主要研究瞭成膜時間對膜層組織和耐蝕性的影響。結果錶明轉化膜層主要由O、Mg、Al、Mn、Ce等元素組成,隨成膜時間延長,膜層不斷增厚,且產生裂紋甚至膜層剝落。Ce(NO3)3/KMnO4濃度比較低時成膜速率較慢,膜層中Ce/Mn原子較小,但膜層的電化學性能較優。開路電位隨成膜時間延長呈現先急劇增大,後緩慢增加併在2min後趨于平穩的趨勢。室溫下處理2min即可穫得組織緻密且耐腐蝕性能較好的轉化膜,與基體相比,經配方A和B成膜後的試樣,其自腐蝕電流密度由34.099μA/cm2分彆下降到0.822和1.367μA/cm2,電阻由0.64kΩ.cm2分彆增大到32.01和20.96kΩ.cm2。
이사붕산납위첨가제,Ce(NO3)3-KMnO4위주요성막제,실온하재AZ91미합금표면제비료Ce-Mn전화막。기우우화적성막제농도비,주요연구료성막시간대막층조직화내식성적영향。결과표명전화막층주요유O、Mg、Al、Mn、Ce등원소조성,수성막시간연장,막층불단증후,차산생렬문심지막층박락。Ce(NO3)3/KMnO4농도비교저시성막속솔교만,막층중Ce/Mn원자교소,단막층적전화학성능교우。개로전위수성막시간연장정현선급극증대,후완만증가병재2min후추우평은적추세。실온하처리2min즉가획득조직치밀차내부식성능교호적전화막,여기체상비,경배방A화B성막후적시양,기자부식전류밀도유34.099μA/cm2분별하강도0.822화1.367μA/cm2,전조유0.64kΩ.cm2분별증대도32.01화20.96kΩ.cm2。
Using sodium borate as additive,Ce-Mn chemical conversion coating was prepared on the surface of AZ91 magnesium alloy in Ce(NO3)3 and KMnO4 solution at room temperature.Based on the optimized concentration ratio of Ce(NO3)3/KMnO4,the influence of processing time on the morphology,composition and corrosion resistance was analyzed.The results show that Ce-Mn chemical conversion coating is mainly composed of O,Mg,Al,Mn and Ce elements.With extending processing time,the thickness of Ce-Mn chemical conversion coating was increased,but cracks in the coating appear and the coating even peels off.When the concentration ratio of Ce(NO3)3/KMnO4 was low,the forming rate and the atomic ratio of Ce/Mn of the coating was low while the corrosion resistance was better.The open circuit potential increases sharply during the first minute,and then gradually approaches a constant value.After 2min,it almost maintains steady.The best compact and corrosion resistant coating can be obtained when treating specimens for 2min.Compared with magnesium matrix,the corrosion current density of samples A and B after treating was decrease from 34.099 to 0.822 and 1.367μA/cm2,and the electric resistance was increase from 0.64 to 32.01 and 20.96kΩ·cm2,respectively.