A special agitator shaft with symmetrically arranged agitator pegs and sleeves of tungsten carbide for wear protection devel- Vertical, batch operation mill for the preparation of tungsten Ideal flow behaviour due to a special agitator peg arrange-ment and the hemispherically shaped chamber floor integrated screen plate for grinding media separationIntensive cooling through a double-wall grinding tank and cooled circulation pipeline
Product inlet via rotor / immersion tube system prevents back flow of grinding media into the feed line.
Generally, there are two ways to obtain nano-powders. A bottom-up manufacturing method (bottom up) for chemical methods, such as chemical precipitation, sol-gel process (sol-gel),... Another method is physical method, which changes the powder particles from big to small (top down), such as mechanical ball milling,... And so on.
The Development In 1963, the first vertical agitator was developed internationally, the first horizontal agitator was developed in 1975, the first horizontal agitator bead mill with eccentric disks was introduced to the public and the horizontal disc grinder was introduced, in 2004, which became the industry standard. In the following years, the grinding media separation systems, the geometry of the grinding disks and the various grinding chamber materials were further developed.
The grinding system pin nanomill shows the evolutionary develop- ment of system with the rotor-slotted pipe separating system. The enclosed horizontal agitator mill is designed for highest product throughput rates and possesses a pin grinding system for highest grinding intensity.
In 2011, we developed the first zirconia comminution chamber technology in China. It has no metal ion pollution and is used in batteries, pharmaceuticals, glazes, ink and food.
钠电池凭借成本低、低温性能好、安全性高、充放电倍率优秀等特点,受到储能装机的亲耐,但也不可否认钠电在制备工艺上还有许多问题需要解决。需要解决钠电池正极材料以下问题:
1.小颗粒易团聚;
2.一致性差;
3.不易分散;
4.易凝胶化;
5.易受潮;
诺研通不断实验和改进工艺,通过添加特殊的分散剂活性剂的共同作用,改善浆料的流动性,抑制了浆料的凝胶化和团聚,控制了空气水份的输入,电池性能大幅度提高,解决了钠电行业团聚、凝胶、分散难得痛点。活得了客户的好评。