The working efficiency of lithium ball mill mainly refers to the effective grinding degree of ore per unit time, which involves the speed and quality of ore grinding from initial particle size to target particle size. This is affected by many factors, such as the hardness and particle size of the ore, the rotation speed of lithium ball mill, the characteristics of grinding media, etc. For example, when lithium ball mill can quickly and accurately grind lithium ore to a particle size suitable for subsequent mineral processing, it means that its working efficiency is high.

Capacity refers to the amount of ore that lithium ball mill can process within a certain period of time (usually per hour or per day), generally measured in mass units (such as tons/hour). Capacity mainly depends on factors such as the specifications of lithium ball mill (such as cylinder diameter and length), feeding speed, and discharge speed. For example, a large lithium ball mill with a large cylinder volume can process a large amount of ore per hour at appropriate feeding and discharge speeds, and its capacity is high.

Generally speaking, the improvement of work efficiency will lead to an increase in production capacity. When the lithium ball mill is working efficiently, for example, by optimizing the size and filling rate of the grinding media, the ore can be ground to the target particle size faster. In this way, under the premise of ensuring product quality, the feeding speed can be appropriately increased to increase production capacity. Because the lithium ball mill can process more ore more effectively per unit time, just like an efficient production line, the faster the processing speed, the higher the output.

By adjusting the speed of the lithium ball mill, the impact and grinding effect of the grinding media on the ore are enhanced, and the work efficiency is improved. At this time, if other conditions remain unchanged, such as the feeding system and the discharge system can cooperate, the feeding amount can be increased, thereby increasing production capacity.

Excessive increase in production capacity may lead to a decrease in work efficiency. If the feeding speed is blindly increased simply to increase production capacity, the amount of ore in the lithium ball mill will be too much, resulting in the inability to fully grind the ore. The residence time of the ore in the lithium ball mill is shortened, the target particle size cannot be reached, the product quality is reduced, and the work efficiency is actually reduced. For example, when the feeding rate exceeds the processing capacity of the lithium ball mill, there will be a "cannot eat" situation, and the ore cannot be effectively ground, just like a person who is assigned too many tasks and cannot complete any task well.

Grinding the ore too finely to ensure work efficiency may reduce production capacity. For example, grinding the ore to a very fine particle size may cause the discharge speed in the lithium ball mill to slow down, because the too fine ore particles may block the discharge port or form agglomeration in the lithium ball mill, affecting the discharge. In this way, the ore in the lithium ball mill cannot be discharged in time, new ore cannot enter, and the production capacity will decrease.

In industrial production such as lithium ore beneficiation, it is necessary to balance the working efficiency and production capacity of the lithium ball mill. It is necessary to ensure that the lithium ball mill can grind the ore efficiently so that the ore reaches the particle size and quality requirements suitable for the subsequent beneficiation process, and the lithium ball mill can process as much ore as possible per unit time to meet the requirements of production scale.