机译:通过熔融LINO_3阳极氧化形成LIAO_3的耐腐蚀硬涂层
School of Materials Science and Engineering Central South University Hunan Changs ha 410083 P.R. China;
School of Materials Science and Engineering Central South University Hunan Changs ha 410083 P.R. China;
School of Materials Science and Engineering Central South University Hunan Changs ha 410083 P.R. China;
Changsha South Tantalum Niobium Co. Ltd Hunan Changsha 410083 P.R. China;
Changsha South Tantalum Niobium Co. Ltd Hunan Changsha 410083 P.R. China;
No. 75 East Renmin Road Chengguan town Yongxing County Hunan Chenzhou 423301 P.R. China;
School of Materials Science and Engineering Central South University Hunan Changs ha 410083 P.R. China;
LiTaO_3 thin film; anodic oxidation; anticorrosion; NaOH solution; tantalum substrate; molten LiNO_3;
机译:通过熔融LINO_3阳极氧化形成LIAO_3的耐腐蚀硬涂层
机译:热喷涂铝/硬质阳极复合涂层的耐磨损性能研究
机译:具有基于氧化铱的活性涂层的钛阳极:试图以增加涂层形成方式为代价,阐明增强阳极的催化活性和耐腐蚀性的可能性
机译:机械化学反应辅助的高熔融氯化物耐腐蚀涂层的开发
机译:评估CuCl熔融液对耐腐蚀涂层的影响。
机译:使用激光加工产生的MoB和Mo-B涂层的微观结构显微硬度耐腐蚀和化学成分
机译:通过将热浸入熔融铝涂层和阳极氧化中的热浸渍氧化耐氧化涂层