1) anodic spark deposition
阳极火花沉积
2) anodic deposition
阳极沉积
1.
Research actuality, technologic characteristic, application foreground and research signification of anodic deposition under high voltage are reviewed on the base of studying Lots of literature at home and abroad.
本论文在分析了国内外文献的基础上,对高电压阳极沉积工艺技术的研究现状、工艺特点、应用前景及研究意义进行了综述,并对阳极沉积所涉及的理论基础知识进行了概括。
4) anodic electrodeposition
阳极电沉积
1.
The electrodes with γ-MnO2 type oxide coatings were prepared by anodic electrodeposition on the base of Ti/IrO2.
采用阳极电沉积法在Ti/IrO2基体上获得γ-MnO2氧化物涂层钛电极,在镀液中掺杂其他元素进行阳极电沉积,获得了MnV、MnCr、MnMoFe和MnFeV混合氧化物涂层钛电极。
5) anode sparkle
阳极电火花
1.
The papers recommends decoration coating with colour on surface formed by anode sparkle.
本文介绍了用阳极电火花形成带颜色的装饰性涂层。
6) electrospark deposition
电火花沉积
1.
Forming mechanism and microtructural characteristics of TiN coatings prepared by electrospark deposition under nitrogen atmosphere;
氮气氛下电火花沉积TiN层的形成机理及微观特征
2.
Interface behavior of WC-8Co coating on Ti alloy produced by electrospark deposition;
TC1合金表面电火花沉积WC-8Co涂层界面行为
3.
Characteristics of TiB_2 coating on surface of copper electrode prepared by electrospark deposition
点焊电极表面电火花沉积TiB_2涂层的特征
补充资料:阳极电沉积涂漆
分子式:
CAS号:
性质:也称阴离子电泳涂装。所用水溶性树脂是一种高酸价的羧酸盐,在电泳漆液中,工件是阳极,电极是阴极,在直流电场下两极产生电位差,阴离子向阳极移动,在阳极表面上放出电子沉积于阳极表面(工件),形成漆膜,阳离子则向阴极移动,在阴极上获得电子还原成胺(氨)。阳极电泳涂装曾一度获得广泛应用,由于电泳时作为阳极的金属被涂物表面会析出金属离子,沾污漆料影响涂膜的质量,同时,它的耐碱性、耐盐雾性及耐水性都不够理想,故近年以来逐渐被阴极电泳涂料所替代。
CAS号:
性质:也称阴离子电泳涂装。所用水溶性树脂是一种高酸价的羧酸盐,在电泳漆液中,工件是阳极,电极是阴极,在直流电场下两极产生电位差,阴离子向阳极移动,在阳极表面上放出电子沉积于阳极表面(工件),形成漆膜,阳离子则向阴极移动,在阴极上获得电子还原成胺(氨)。阳极电泳涂装曾一度获得广泛应用,由于电泳时作为阳极的金属被涂物表面会析出金属离子,沾污漆料影响涂膜的质量,同时,它的耐碱性、耐盐雾性及耐水性都不够理想,故近年以来逐渐被阴极电泳涂料所替代。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条