With the rapid development of new energy vehicles, the demand of power battery also appears a rapid growth .As the key raw materials and under the background of high growth and continuous development of new energy vehicles, the high prospects of development of lithium electronic material industry is expected to continue.Inside the anode of the lithium battery materials there are cobalt acid lithium, nickel acid lithium, manganese acid lithium, three raw materials, iron phosphate lithium ,etc to select;The cathode is usually graphite.the vibrating screen of Zhenying has solved the need of screening and grading in the process of making lithium battery materials.
Since 2008, the vibration screen of Zhenying in the screening and grading of lithium battery materials industry occupied more than 85% of the market.most of the machine are ultrasonic sieving machine.Since 2015,in unremitting efforts,Zhenying has developed a kind of multiple frequency screen as a new kind of screening machine.In the lithium battery industry,it Has played a significant effect to promote sieving precision above 95% and the capacity above 100% , since putting into market, the effect is particularly obvious and has been well received high praise by the majority of users。
- High screening precisionFrom the analysis of experimental data, the same material, before using of multiple frequency screen and after using ,sieving precision can improve at least 10% and provide guarantees of high quality for the customer.
- High screening capacityIn the case of natural graphite powder, 200 mesh sieve, the original production is 75 kg/hour, now with the multiple frequency sieve can reach 150 kg/hour, it can meet the market demand of growth at least 35% each year for lithium battery raw materials.
- The outer type ultrasonic system
In the process of sieving, some electric appliances of the sieve machine is lead to burn out easily by lithium battery materials as conductive materials,the transducer of ultrasonic vibrating screen by we designed, has been changed built-in type.