1) gold and gold alloy
金及其合金
2) copper and its alloys
铜及其合金
1.
Because of high thermal conductivity, welding of copper and its alloys is usually difficult by c.
由于铜及其合金具有很高的导热系数,使用传统的熔焊方法焊接通常是很困难的,焊接过程中需要很高的能量输入,而且焊接速度较低。
3) aluminum and its alloys
铝及其合金
1.
New developments of anodization for aluminum and its alloys;
铝及其合金阳极化处理新进展
2.
Recent developments over these years on the surface treatment for aluminum and its alloys by micro-arc oxidation (MAO) were reviewed.
综述了近年来利用微弧氧化技术对铝及其合金进行表面处理的研究进展;着重分析归纳了电流密度、电压、频率等电参量以及不同基体材料对铝合金微弧氧化膜的生长、成分、结构和性能等方面的影响;分类评价了铝合金微弧氧化处理中常用的电解液体系;简要描述了铝合金微弧氧化的动力学特点和膜层的生长机理;指出电参量的控制以及电解液成分和浓度的调整是将来铝合金微弧氧化技术的研究重点。
3.
Eight conventional formulas and processes of the pretreatment for plating on aluminum and its alloys are listed.
列举了8种常用铝及其合金电镀预处理的典型配方及工艺。
4) magnesium and its alloys
镁及其合金
1.
This paper investigated the surface reinforcement of magnesium and its alloys systematically using anodizing technology under restraining sparking in mixed alkaline solutions composed of ammonium phosphate, sodium fluoride, organic amine and film-forming additive.
本文就镁及其合金材料在由主成膜剂、辅助成膜剂、抑弧剂和成膜添加剂组成的碱性复合电解液体系中氧化成膜时的工艺、膜层性能、膜层组分、形貌、结构及膜层的成膜过程进行了详细的研究。
5) aluminum and aluminum alloy
铝及其合金
1.
The technology of the bright Sn-Pb alloy electroplating on aluminum and aluminum alloy with the pretreatment method of zinc-nickel immersion plating and nickel pre-electroplating was studied.
研究了采用浸锌-锡合金与预镀镍相结合的方法,在铝及其合金表面形成一层中间层再电镀光亮锡-铅合金工艺。
6) copper and its alloy
铜及其合金
1.
Study of a new passivation process for copper and its alloys;
铜及其合金表面钝化新工艺的研究
2.
The status of the researches on organic and inorganic environment friendly corrosion inhibitors and those extracted from natural plants as well as self-assembled monolayer for improving the corrosion resistance of copper and its alloys is reviewed.
概述了无机、有机、动植物中提取物等环保型缓蚀剂及自组装技术在提高铜及其合金耐蚀性能方面的研究现状,并对其发展趋势进行了展望。
3.
Copper and its alloy has been widely used in many fields for their favorable physical andmechanical performance.
铜及其合金具有优异的机械加工性能而广泛地应用于各种工业。
补充资料:铜及其合金的钝化处理
分子式:
分子量:
CAS号:
性质:用铬酐或重铬酸盐溶液,在室温下进行钝化处理3~30秒,是短时间内防止腐蚀的一种简便方法,生产效率较高,成本低。
分子量:
CAS号:
性质:用铬酐或重铬酸盐溶液,在室温下进行钝化处理3~30秒,是短时间内防止腐蚀的一种简便方法,生产效率较高,成本低。
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