Corrosion mechanism associated with Mg_2Si and Si particles in Al-Mg-Si alloys  被引量：21

作　　者：曾锋利[1] 卫中领 李劲风[1] 李朝兴[1] 谭星[1] 张昭[3] 郑子樵[1] 

机构地区：[1]中南大学材料科学与工程学院,长沙410083 [2]嘉兴市轻合金技术重点实验室,嘉兴314000 [3]浙江大学化学系,杭州310027

出　　处：《Transactions of Nonferrous Metals Society of China》2011年第12期2559-2567,共9页中国有色金属学报（英文版）

基　　金：Project (21073162) supported by the National Natural Science Foundation of China;Project (2008) supported by the Scientific and Technological Projects of Ningxia, China;Project (08JC1421600) supported by the Science and Technology Commission of Shanghai Municipality, China;Project (2008AZ2018) supported by the Science and Technology Bureau of Jiaxing City, China

摘　　要：The electrochemical behaviors and coupling behaviors of the Mg2Si and Si phases with α（Al） were investigated, the corrosion morphologies of Al alloys containing Mg2Si and Si particles were observed, and the corrosion mechanism associated with them in Al-Mg-Si alloys was advanced. The results show that Si particle is always cathodic to the alloy base, Mg2Si is anodic to the alloy base and corrosion occurs on its surface at the beginning. However, during its corrosion process, the preferential dissolution of Mg and the enrichment of Si make Mg2Si transform to cathode from anode, leading to the anodic dissolution and corrosion of the alloy base at its adjacent periphery at a later stage. As the mole ratio of Mg to Si in an Al-Mg-Si alloy is less than 1.73, it contains Mg2Si and Si particles simultaneously in the grain boundary area, and corrosion initiates on the Mg2Si surface and the precipitate-free zone （PFZ） at the adjacent periphery of Si particle. As corrosion time is extended, Si particle leads to severe anodic dissolution and corrosion of the PFZ at its adjacent periphery, expedites the polarity transformation between Mg2Si and the PFZ and accelerates the corrosion of PFZ at the adjacent periphery of Mg2Si particle.研究Al-Mg-Si合金晶界组成相(Al-Mg2Si及Al-Mg2Si-Si)间的电化学行为和动态电化学耦合行为,提出Al-Mg-Si合金的晶间腐蚀机理。研究表明,晶界Si的电位比其边缘Al基体的正,在整个腐蚀过程中作为阴极导致其边缘Al基体的阳极溶解;晶界Mg2Si的电位比其边缘Al基体的负,在腐蚀初期作为阳极发生阳极溶解,然而由于Mg2Si中活性较高的元素Mg的优先溶解,不活泼元素Si的富集,致使Mg2Si电位正移,甚至与其边缘Al基体发生极性转换,导致其边缘Al基体的阳极溶解。当n(Mg)/n(Si)<1.73时,随着腐蚀的进行,合金晶界同时会有Mg2Si析出相和Si粒子,腐蚀首先萌生于Mg2Si相和Si边缘的无沉淀带,而后,Si粒子一方面导致其边缘无沉淀带严重的阳极溶解,另一方面加速Mg2Si和晶界无沉淀带的极性转换,从而促使腐蚀沿晶界Si粒子及Mg2Si粒子边缘向无沉淀带发展。

关 键 词：Al-Mg-Si alloys intergranular corrosion corrosion mechanism electrochemical behaviors MG2SI SI 

分 类 号：TG171[金属学及工艺—金属表面处理]