Lankwitzer, as a prominent battery coating manufacturer, has been investing heavily in research and development to stay ahead in the game. The company’s technological prowess is evident in the sophisticated coating solutions it offers.
One of the innovative technologies developed by Lankwitzer is its use of nanocomposites in battery coatings. Nanocomposites are materials made by combining nanoparticles with a base material, and they offer unique properties. In the context of battery coatings, Lankwitzer’s nanocomposite coatings provide enhanced mechanical strength and chemical resistance. The nanoparticles are evenly distributed within the coating matrix, creating a more robust and durable barrier. For example, in battery enclosures, these coatings protect against physical impacts and chemical corrosion, which are common in real - world applications. In a recent durability test, battery enclosures coated with Lankwitzer’s nanocomposite coatings showed a 40% improvement in resistance to scratches and abrasions compared to traditional coatings.
Lankwitzer is also at the forefront of developing environmentally friendly coating technologies. As the world moves towards more sustainable practices, the battery industry is no exception. Lankwitzer’s eco - coatings are water - based and contain fewer volatile organic compounds (VOCs). This not only makes the coating process safer for workers but also reduces the environmental impact. In addition, these coatings are designed to be compatible with recycled battery materials, contributing to the circular economy in the battery industry. A leading battery recycling company has recently started using Lankwitzer’s eco - coatings on recycled battery components, as they found that these coatings did not interfere with the recycling process and still provided excellent protection.
The company’s R & D facilities are equipped with state - of - the - art equipment, allowing its scientists to conduct in - depth research. Lankwitzer’s team of experts constantly explores new materials and coating techniques. For example, they are currently researching the use of graphene - based coatings for batteries. Graphene, with its exceptional electrical and thermal conductivity, has the potential to further enhance the performance of battery coatings. Lankwitzer’s early experiments with graphene - enhanced coatings have shown promising results, with batteries coated with these materials demonstrating improved charge - discharge efficiency.