Lithium compounds used in lithium batteries have specific particle size distribution requirements, and the use of ultra-fine lithium powder can improve battery performance, including higher available capacity, longer service life, faster charging rate, higher efficiency, consistent discharge rate, and reduced size and weight. 

Typical materials of cathode materials for lithium-ion batteries:Lithium cobalt oxide, lithium manganate, lithium iron phosphate, ternary materials, lithium carbonate, lithium nickel cobalt aluminate, cobalt oxide, cobalt dioxide, lithium hydroxide, etc.

Impact Mill Grinding Process

Material include: Lithium cobaltate (LCO), Li(OH), lithium manganate, lithium iron phosphate (LFP), ternary materials (NCM), lithium carbonate (Li2CO3), lithium nickel cobalt manganate (NCM), lithium nickel cobalt aluminate (NCA), cobalt oxide, lithium titanate, cobalt dioxide, Lithium cobalt oxide, etc.

The material is uniformly sent into the grinding chamber by the feeding system, and is strongly impacted by the high-speed rotating grinding disc. At the same time, it is subjected to the centrifugal force to collide with the crushing ring gear, and is subjected to various comprehensive forces such as shearing, friction, and collision.

The material is ground, and the crushed material moves to the classification area with the airflow. The coarse and fine materials are separated through the classification wheel adjusted by the frequency conversion. The products that meet the fineness requirements enter the cyclone collector and the dust collector with the airflow for collection, and the coarse particles return to the grinding area to continue shattered.



  •  Whole ceramic protection,no magnetic substance.
  •  Optimized milling assemble,good ball shape,high bulk density.
  •  Humanization design,easy to change parts.
  •  Closed-loop system,no moisture increasing,nitrogen circle system available, extremely low oxygen content.
  • Machine large change to meet different capacity requirement.
  • Sintered plate filter available,filtering precision 0.1um and collecting rote up to 99.99%.
  •  Processing parameter memory and historical record query(intelligent control).
  •  Whole rotor with sintered zirconium aluminum ceramic.
  • Separated zirconia ceramic gear ring.
  •  Customized zirconia sintered hammer.
  • Whole air deflector.
  •  Discharge pipe upgrade to whole ceramic liner pipe.
  • Imported LINATEX liner.
  •  No copper and zinc parts.
  •  Inner chamber of blower with SS304 coated PTFE.
  •  Return pipe anti-metal processing.
  •  PLC automatic control.
  • Running:vibration sensor,temperature sensor.
  •  Validation document available.
MODEL Capacity and Size
Material Iron phosphate LCO LMO LFP NCM
MJW400-A 100-200kg/h 200-300kg/h 200-300kg/h 150-200kg/h 300-400kg/h
D50:5-8μm D50:10-15μm D50:8-10μm D50:5-8μm D50:8-12μm
MJW500-A 300-500 600-800 500-700 300-400 600-800
D50:5-8μm D50:10-15μm D50:8-10μm D50:5-8μm D50:8-12μm
MJW1500-A 1500-2500 4000-5500 3500-5000 2000-2800 4000-5500
D50:5-8μm D50:10-15μm D50:8-10μm D50:5-8μm D50:8-12μm

Fluidized Bed Jet Mill Grinding Process

Suitable materials include: lithium iron phosphate, single crystal ternary, small particle lithium cobalt oxide, lithium hydroxide, lithium carbonate, etc.

After the compressed air is filtered and dried, it is sprayed into the grinding chamber at high speed through the Laval nozzle. At the intersection of multiple high-pressure airflows, the materials are repeatedly collided, rubbed, and sheared to be crushed. The crushed materials rise with the suction of the fan. The airflow moves to the classification zone. Under the action of the strong centrifugal force generated by the high-speed rotating classification turbine, the coarse and fine materials are separated.The fine particles that meet the particle size requirements enter the cyclone separator and dust collector through the classification wheel for collection, and the coarse particles descend to the crushing zone and continue to be crushed.


  • Achieve full ceramization, no magnetic substance.
  •  Overall sintering ceramic rotor up to the world’s advanced level, the line speed up to 65m/s.
  • Zirconia ceramic nozzle.
  •  Australia imports LINATEX protection,seamless protection,wear- resistant.
  •  Recoil gas mantle sealing disc is sintered overall.
  •  German standards automatic controlling technology.
  •  Mettler Toledo weight sensor,precise control the feeding amount.
  • Automatic regulator valve, pulverizer inlet pressure controlling constantly.
  •  Pressure difference sensors and automatic adjusting throttle, maintaining the stability of the system resistance.
  •  Siemens PLC automatic control, product quality consistent and stable.
Paeticle size D50:1-2μm D50:5-6μm D50:6-8μm D50:4±0.5μm D50:5-6μm
MQW20 200-300kg/h 350-400kg/h 250-300kg/h 200-250kg/h 250-300kg/h
MQW40 400-600kg/h 700-800kg/h 500-600kg/h 400-500kg/h 500-600kg/h
MQW80 800-1200kg/h 1400-1600kg/h 1000-1200kg/h 800-1000kg/h 1000-1200kg/h
MQW160 1600-2500kg/h 2500-3000kg/h 2000-2500kg/h 250-300kg/h 2000-2500kg/h

Spiral Jet Mill Grinding Process

Especially suitable for grinding single crystal ternary materials and small particle lithium cobalt oxide.

  •  Different from the ordinary fluidized bed jet mill, Spiral jet mill’s multiple nozzles to form multiple vortex, material collision grinding, high energy utilization.
  •  The new spiral jet mill equip with Classifier which is especially suitable for grinding single crystal ternary materials and small particle lithium cobalt oxide.
  •  Low energy consumption, energy saving more than
  •  Compact machine, convenient maintenance and small floor space.
  •  The residence time in the grinding chamber is shorter, the surface damage is small, and the electrical performance is good.
  •  Spiral progressive grinding force, secondary shaping of particles, sphericity is better than fluidized bed jet mill.
Feeding Size(mm) < 2 < 2 < 5 < 2 < 3 < 3 < 3 < 3 < 5 < 5
Particle size(D97:μm) 8~150 8~150 8~150 8~150 8~150 8~150 10~150 10~150 10~150 10~150
Production Capacity(kg/h) 5~15 5~100 10~200 20~400 50~800 150~1500 300~2000 150~1500 300~2000
Air consumption(m³/min) 1 2.5 3 6 10 15 20 30 40 60
Air pressure(Mpa) 0.7~0.85 0.7~0.85 0.7~0.85 0.7~0.85 0.7~0.85 0.7~0.85 0.7~0.85 0.7~0.85 0.7~0.85 0.7~0.85
Installed power (kw) 7.5 15~20 26~37 30~37 65~85 85~100 120~142 175~200 276~310 402~427

Three-in-One Laboratory Grinding & Classifying Process

Especially suitable for grinding single crystal ternary materials and small particle lithium cobalt oxide.

  • A three-in-one combined structure that combines jet mill,air classifier and classifier mill.
  •  Compact structure and assembled easily.
  • Final fineness D50:1~45um adjustable.
  •  High efficiency air sealing structure.
  •  Horizontal high-speed rotor,18000rpm.
  •  Movable classifier mill units,east to dismantle.
  •  All-ceramic structure can be selected for key components, no metal pollution.
  •  Inert gas circle atmosphere for flammable and explosive material.
  •  Sintered plate filtering units,filtering precision 0.1um and collecting rote up to 99.99%.
  •  Dimension(L*W*H):2700*850*1600mm.
  •  Special suitable for research institutes and
  •  universities and colleges to develop new products.

For Lithium Iron Phosphate ( LiFePO4 )

Since 2020, benefiting from technological breakthroughs in the density of lithium iron phosphate batteries, lithium iron phosphate batteries have been increasingly favored by battery manufacturers. Its cost advantage and safety and stability have been recognized by the market again. Many mid-to-high-end models that only use ternary batteries, such as Tesla, have also begun to install lithium iron phosphate batteries.

  • The grinding disc could run at speed to meet the linear velocity of 120m/s, the extremely high grinding kinetic energy enables the iron-lithium to be instantly dispersed and milled; single machine meets 1T/H-1.5T/H capacity.
  • The equipment with the same hierarchical structure of jet mill meets the D50 and Dmax requirements of iron-lithium.
  • Gas circulation process (nitrogen, air) to meet the water content requirements of the iron-lithium process.
  • Optimize design of grinding and classification flow field, high efficiency and energy saving.
  • The actual production experience of the largest Chinese impact mill (CSM1500-H) and years of accumulation and precipitation in the industry.

Inert Atmosphere Protection Grinding / Classifying System

The closed-loop inert gas protection system, a closed-loop ultra-fine grinding and classifying system using inert gas circulation protection, is developed by our company for the grinding and classifying requirements of special materials such as inflammable, explosive, and easily oxidized materials. Due to the high cost of inert gas, a closed system is adopted, and a strictly airtight separation device is adopted at the inlet and outlet.

  • Grinded by impact between materials, suitable for material at Mohs hardness 1-10.
  • Low abrasion and no metal contamination.
  •  Inert gas can be changed according to materials.
  •  Purity of inert gas can be precisely controlled according to the requirement of product.
  •  Closed loop system, minimum inert gas consumption.
  • Air sealing system brings classify accurateing.
  • Accurate classifying thanks to high efficiency classifying rotor.
  •  Particle size adjustable between 2-74μm.
  •  Classifying flow distribution technology brings high grinding performance and narrow particle size distribution.
  •  The whole system is running under negative pressure.
  •  Dust on filter bag is cleaned by automatic impulse.
  •  Filtration rate can reach 99.99%.
  •  Back up filter behind dust collector to prevent dust entering air compressor.
  •  Automatic PLC control system for the plant. Simple operation.

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    NO. 369, Road S209, Huanxiu , Qingdao City, China




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