1) multiplex composite nano-additives
多元复合纳米添加剂
1.
As a result of the experiment, fine and active multiplex composite nano-additives are prepared by chemical coprecipitation, and large surge absorption capability increases by more than 50%.
提出了一种利用复合纳米添加剂改善ZnO压敏电阻的晶界效应和微观特性,以获得高性能ZnO电阻片的方案,并通过化学共沉淀法制备了多元复合纳米添加剂。
2) composite nanometer additives
复合纳米添加剂
1.
In order to improve the electrical properties of ZnO varistors,the powder of ZnO varistor was fabricated by blending and grinding of ZnO,Sb2O3 and composite nanometer additives prepared by sol-gel method.
采用sol-gel法制备了复合纳米添加剂。
2.
In order to improve the performance of ZnO varistors,the powders of ZnO varistors were fabricated by blending and grinding of ZnO,SiO2 and composite nanometer additives prepared by Sol-Gel method.
为了提高ZnO压敏电阻器的性能,采用Sol-Gel法制备复合纳米添加剂。
3) Si-Mg combined nanoparticle
硅镁型复合纳米添加剂
1.
Si-Mg combined nanoparticle additive with a particle size of about 40 nm was obtained by chemical method.
用化学方法制得粒径约为40nm的硅镁型复合纳米添加剂,分别采用四球摩擦磨损试验机、环-块摩擦磨损试验机和齿轮试验机考察了其作为矿物油添加剂的抗磨减摩性能及对磨损表面的修复作用。
4) Mg-Sn complex nanoparticle
Mg-Sn型复合纳米添加剂
5) nano-additive
纳米添加剂
1.
Influence of nano-additive on sintering of AlN ceramics;
纳米添加剂在陶瓷烧结中的作用
2.
The advantage and disadvantage, and development forecast of many potential fuels including multi-cyclic hydrocarbons, highly strained caged hydrocarbons and nano-additives are evaluated from the point view of feedstock availability, synthetic route, application properties, etc.
总结了液体高密度烃燃料合成的最新进展,从原料、合成路线、使用性能等方面评价了多环高密度烃、高张力笼状烃、纳米添加剂等的优缺点及发展前景,分析了高密度烃燃料合成中存在的问题,介绍了作者所在课题组在此领域的工作进展。
3.
The research focus and main types of the anti-wear and extreme pressure nano-additives for lubricating oils are reviewed.
介绍了润滑油纳米抗磨添加剂的研究热点和主要类型,分析了纳米添加剂对润滑油摩擦学特性改善的机理,总结了纳米添加剂的制备过程中提高其分散性的表面处理方法,并提出了润滑油纳米添加剂目前存在的问题及其发展方向。
6) nanometer additive
纳米添加剂
1.
nanometer additive was used in the synthesis of polyethylene glyoelterephalate(PET),the chips of high barrier behaviour is produced.
在PET的聚合过程中加入纳米添加剂,得到高阻隔聚酯瓶用料,解决了纳米添加剂在聚酯中的分散问题,考察了切片及高阻隔聚酯瓶用料各种指标。
补充资料:复合微量元素添加剂
分子式:
分子量:
CAS号:
性质:又名禽畜生长素。分禽用和畜用两种,其微量元素含量误差不大于0.5%。可为禽畜补充在天然饲料中不能满足其需要的微量元素。可促进禽畜的新陈代谢,增强抗病力,生长率可提高10%以上。用于禽畜日粮或饲料厂生产配(混)合饲料。按一定比例,将Cu、Fe、Zn、Mn等盐类混合于CaCO3载体中,经精制而得。
分子量:
CAS号:
性质:又名禽畜生长素。分禽用和畜用两种,其微量元素含量误差不大于0.5%。可为禽畜补充在天然饲料中不能满足其需要的微量元素。可促进禽畜的新陈代谢,增强抗病力,生长率可提高10%以上。用于禽畜日粮或饲料厂生产配(混)合饲料。按一定比例,将Cu、Fe、Zn、Mn等盐类混合于CaCO3载体中,经精制而得。
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