摘要
结合铝的表面处理和铜的生箔对阳极的要求,针对Ti/IrO2阳极,用热差分析、电极极化、X光衍射及强化寿命试验,研究了热氧化处理温度对阳极的热分析曲线、电极电位、相结构和强化寿命的影响。在30%H2SO4(质量比),4A/cm2,40℃±5℃下的强化寿命实验表明:小于500℃时,阳极的寿命受涂层的溶蚀控制。大于600℃,阳极的破坏形式以涂层脱落为主,而涂层在500℃~600℃之间处理的阳极的强化寿命最长,Ti/IrO2涂层阳极的热氧化处理温度以500℃~600℃为最佳。
In order to meet a demand of aluminum surface treatment and copper foil
deposition for anodes, the effect of oxidative thermal treatment temperature on thermoanalytical
curve, electrode potential, phase structure and strengthening lifetime of Ti/IrO 2 have been
studied using thermogravimetry analysis, electropolarized, x ray diffraction and strengthening
lifetime experiments. The strengthening lifetime was tested in a solution of 30% H 2SO 4
(weight ratio) at 4A/cm 2 and 40℃±5℃. The results show that the lifetime of an anode made
at less than 500℃ is controlled by corrosion of the coating. Peeling of the coating is a major
cause of damage for anodes made at temperatures higher than 600℃. The coating made at
500℃~600℃ has the longest lifetime. Optimal oxidative thermal treatment temperature is in
the range 500℃ to 600℃ for Ti/IrO 2 coating anode.
出处
《稀有金属材料与工程》
SCIE
EI
CAS
CSCD
北大核心
1999年第1期50-52,共3页
Rare Metal Materials and Engineering
关键词
涂层
阳极
热氧化处理温度
氧化钌
钛
氯碱工业
Ti/IrO 2 coating anode,
performance, oxidative thermal treatment temperature
