摘要
为分析掺杂元素对微弧氧化膜热控性能的影响,获得更高太阳吸收比和发射率的热控膜层,采用磷酸盐体系、Fe^(2+)盐添加剂制备了微弧氧化(Micro anodic oxidation,MAO)膜,并研究了不同浓度Fe^(2+)盐添加剂对MAO膜层热控性能的影响;采用扫描电镜观察了MAO膜微观结构,结合EDS、XRD,分析了Fe^(2+)浓度对MAO膜层微观形貌、膜层成分、相组成、耐盐雾腐蚀性的影响规律。结果表明:Fe^(2+)进入了膜层,Fe元素含量随着添加剂中Fe^(2+)浓度升高而增加,太阳吸收比和发射率均先升后降,且在Fe^(2+)浓度为20 g/L时出现峰值0.89和0.83;掺杂Fe^(2+)进入膜层生成Fe3O4,显著提高了MAO膜的热控性能和耐盐雾性能;Fe^(2+)浓度在20 g/L时微弧氧化膜具有优异的热控性能(其太阳吸收比达αS0.89、发射率达εH0.83)和耐盐雾腐蚀性能。
In order to obtain a high absorption and high emission thermal control film by making out the effect of doping element on thermal control properties, the micro-arc oxidation (MAO) film was prepared by using a phosphate system and Fe2+ salt additive. The effects of different concentrations of Fe2+ salt additive on the thermal control performance of MAO film was studied. The effects of Fe2+ concentration on the microstructure, membrane composition and salt spray corrosion resistance of MAO were investigated by XRD and EDS, respectively. The results show that Fe2+ enters into the film, and its content increases with the increase of Fe2+ concentration in the additive.The solar absorption ratio and emissivity firstly increase and then descend, and the peak appears at the Fe2+ concentration of 20 g/L, with the values of 0.89 and 0.83, respectively. The addition of Fe2+ leads to form Fe304, which significantly increases the salt spray resistance time and thermal control property. When the concentration of Fe2+ is 20 g/L, 2A12 micro-arc oxidation film has the best thermal control properties (as is 0.89 and eH is 0.83) and corrosion resistance.
出处
《中国表面工程》
EI
CAS
CSCD
北大核心
2017年第5期67-73,共7页
China Surface Engineering
基金
国家重点研发计划项目(2017YFB0702100)~~
关键词
微弧氧化
Fe2+浓度
热控性能
盐雾腐蚀
micro-arc oxidation (MAO)
concentration of Fe2+
thermal control
salt spray corrosion
