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.
諾研納米砂磨機廣泛應用于電池材料的研磨,分為正極材料和負極材料,正極是指用磷酸鐵鋰作為正極材料的鋰離子電池。 鋰離子電池的正極材料主要有鈷酸鋰、錳酸鋰、鎳酸鋰、三元材料、磷酸鐵鋰等。其中鈷酸鋰是目前絕大多數鋰離子電池使用的正極材料。負極材料主要應用金屬硅的研磨,目前金屬研磨后的最小粒度D90≤100nm
最近,有關新型磷酸鐵鋰電池取得進展、有望取代傳統鋰電池的報道接連不,帶來了一種更接近現實的新能源技術:含鐵的鋰電池。