As the core equipment of modern precision coating technology, coaters play a vital role in the field of new energy battery material manufacturing. Through the coater production line, lithium battery electrode sheets can be produced efficiently and precisely, and their performance directly determines the energy density, cycle life and safety of the battery. By accurately controlling the thickness, uniformity and areal density of the slurry coating, coaters lay a solid foundation for the manufacture of high-performance batteries.

In the coating of lithium-ion battery cathode materials, coaters play an irreplaceable role. It can uniformly coat the slurry containing active substances such as lithium cobalt oxide, lithium iron phosphate or ternary materials on the aluminum foil current collector. The precise tension control and drying system of the coater ensure that the electrode sheets do not warp or crack during the coating and drying process, and guarantee the high consistency of the electrode sheets. This consistency is the key to improving the overall performance and safety of the battery pack.

For the production of lithium-ion battery anode materials, coaters are equally crucial. Whether it is graphite, silicon-carbon composite materials or other new-type anode materials, they all need to be uniformly attached to the copper foil through coaters. The advanced die head design and closed-loop control system of the coater can effectively control the fluidity of the slurry, avoid defects such as agglomeration, scratches or uneven thickness, thereby ensuring that the anode sheet has excellent electrochemical performance.

In addition, coaters also show great potential in the research and development and trial production of next-generation solid-state batteries. The preparation of solid electrolyte films places higher requirements on the coating process, requiring coaters to control the coating quality at a more precise scale. The continuous advancement of coater technology is promoting the industrialization of various new battery systems from the laboratory, including lithium-sulfur batteries and sodium-ion batteries.