The latest power battery coating technical requirements: improve production efficiency and product quality

In the context of the booming new energy automotive industry, the latest power battery coating technology requires clear and strict regulations on improving production efficiency and product quality.

From the perspective of improving production efficiency, rapid curing technology has become the key. With the explosive growth of demand in the new energy vehicle market, the production capacity of power batteries is facing huge challenges. Traditional coatings have a long curing time, which seriously restricts production efficiency. The latest power battery coating technology requires coatings to be able to achieve rapid curing. Take the UV insulating battery coating (EvoProtect 455 UV) developed by Lankwitzer's Lanwei Coatings (Shanghai) Co., Ltd., as an example, the coating can achieve ultra-fast curing in less than 5 seconds through ultraviolet irradiation. In the large-scale production of power batteries, this feature allows more cells to be coated per hour, which greatly improves production efficiency and meets the urgent market demand for battery capacity.

Automated production adaptability is also an important part of the latest technical requirements. Modern industrial production pursues a high degree of automation to reduce the impact of human factors on product quality, while improving production efficiency. Lwitankzer's EvoProtect 455 UV coating supports automated production, enabling a continuous production line without human intervention. On the production line, the cells can accurately complete a series of processes such as coating and curing through automated equipment, which not only improves production efficiency, but also ensures the consistency and stability of each cell coating, effectively improving product quality.

In terms of product quality improvement, the adhesion and wear resistance of coatings are crucial. Power batteries experience various vibrations and frictions during use. If the paint has insufficient adhesion, it is prone to falling off, which affects the protective performance of the battery. Lankwitzer's power battery coatings enhance the adhesion between the paint and the surface of the battery by optimizing the formula, ensuring that the coating will not easily fall off during long-term use. At the same time, its coating has high hardness and wear resistance, which can withstand the friction caused by the internal and external environment of the battery, maintain the integrity of the coating, and provide long-lasting and reliable protection for the battery.

Product consistency is also an important indicator to measure product quality. Lankwitzer ensures that each batch of products has a high degree of consistency through advanced production processes and strict quality control systems. From raw material procurement to production and processing, to finished product inspection, every link is meticulously managed, so that the power battery coatings it produces remain stable in terms of performance and appearance, meeting the high standards of product quality required by the latest power battery coating technology.