腐蚀科学与防护技术
腐蝕科學與防護技術
부식과학여방호기술
CORROSION SCIENCE AND PROTECTION TECHNOLOGY
2009年
4期
358-361
,共4页
溶胶-凝胶%La1-xCaxCrO3%涂层%电导率
溶膠-凝膠%La1-xCaxCrO3%塗層%電導率
용효-응효%La1-xCaxCrO3%도층%전도솔
sol-gel%lanthanum chromate%coating%electrical conductivity
采用溶胶-凝胶法在铁铬合金基体上制备掺杂钙元素的La1-xCaxCrO3导电涂层;用IR、UV分析溶胶成分,DTA、TG、XRD和SEM、AFM等手段研究了涂层相变规律和表面形貌,四探针法测定涂层的电阻率.结果表明:用低浓度溶胶多次热处理可以得到粗糙度RMS为60~70 nm、厚度为300~400 mm的涂层,在Ca2+的掺入量为0.1~0.14 mol/L之间时涂层具有最佳导电性.
採用溶膠-凝膠法在鐵鉻閤金基體上製備摻雜鈣元素的La1-xCaxCrO3導電塗層;用IR、UV分析溶膠成分,DTA、TG、XRD和SEM、AFM等手段研究瞭塗層相變規律和錶麵形貌,四探針法測定塗層的電阻率.結果錶明:用低濃度溶膠多次熱處理可以得到粗糙度RMS為60~70 nm、厚度為300~400 mm的塗層,在Ca2+的摻入量為0.1~0.14 mol/L之間時塗層具有最佳導電性.
채용용효-응효법재철락합금기체상제비참잡개원소적La1-xCaxCrO3도전도층;용IR、UV분석용효성분,DTA、TG、XRD화SEM、AFM등수단연구료도층상변규률화표면형모,사탐침법측정도층적전조솔.결과표명:용저농도용효다차열처리가이득도조조도RMS위60~70 nm、후도위300~400 mm적도층,재Ca2+적참입량위0.1~0.14 mol/L지간시도층구유최가도전성.
Electrical conductive Ca-doped lanthanum chromate coating was synthesized by sol-gel process on Fe-Cr alloy substrate. The component of sol was analyzed by means of IR and UV. The phase transfor-mation and surface morphologies of the coating were investigated by DTA,TG, XRD, SEM and AFM. The electric conductivity was measured by four probe method. According to the result, a coating with roughness form 60 to 70 nm and thickness from 300 to 400 nm can be prepared through repetitively coating with low concentration sol and then heat treating. The coating with a doping amount of Ca2+ between 0.1 and 0.14 has the best electrical conductivity.
