Energy Storage Insulation Material: Lankwitzer’s Breakthroughs Shaping the Future of Energy Storage

In the burgeoning energy storage industry, energy storage insulation material stands as a cornerstone for ensuring the safe and efficient operation of energy storage systems. As the world increasingly shifts towards renewable energy sources, the demand for reliable and high - performance energy storage solutions has skyrocketed. Insulation materials play a pivotal role in maintaining the integrity of energy storage systems, preventing electrical short - circuits, and dissipating heat, thereby enhancing overall system safety and longevity.

Lankwitzer, a renowned player in the field of battery coatings, has been at the forefront of innovating energy storage insulation material. At the 3rd eic Three - Electric and Energy Storage “Insulation, Flame Retardancy, Heat Insulation, and Sealing” Technology Conference in 2024, Lankwitzer introduced its latest energy storage insulation solutions. The company’s representatives emphasized their dedication to developing cutting - edge insulation materials that meet the unique requirements of the energy storage market.

Lankwitzer’s Evoprotect455UV series serves as a prime example of its advanced energy storage insulation material. Evoprotect455UV (UE55 - 0500/0), developed over three years, entered production in 2018. With a production volume exceeding 4,000 tons and an initial operation pass rate of over 98%, this product has been widely adopted in energy storage systems across Germany and China. It has coated more than 500 million battery cells, highlighting its reliability and widespread acceptance.

Evoprotect455UV (UE55 - 0500/7), launched in 2023, further exemplifies Lankwitzer’s commitment to innovation. Even after undergoing 1,000 hours of 85/85 aging tests, it continues to meet customized customer demands. Boasting a shear strength of over 12mpa, low curing energy, an insulation withstand voltage of more than 6kvdc, and a dielectric strength of over 150kv/mm, this material effectively fortifies the safety and durability of energy storage systems.

Lankwitzer’s energy storage insulation material offers several key advantages. Its UV - curing technology enables the coating to solidify in under 5 seconds, with a production cycle that can reach 50 - 60 ppm. This significantly accelerates production, reducing time - related costs. From an environmental and cost - control perspective, the coatings exhibit excellent recycling capabilities, with a comprehensive utilization rate of up to 95%. Moreover, they produce almost no volatile organic compounds (VOCs) during the curing process, aligning with strict environmental standards.

In practical applications, Lankwitzer’s energy storage insulation material has proven its worth. In a large - scale energy storage project, energy storage systems equipped with Lankwitzer’s insulation coatings maintained stable performance even under extreme conditions. The insulation material effectively prevented electrical short - circuits and heat - related malfunctions, ensuring the long - term stability of the energy storage system.

Lankwitzer’s Shanghai Testing Center, equipped with a full - process spraying line, provides customized spraying services. This not only helps customers save on the investment required to build a trial - production line but also expedites the implementation of new technologies.

Thanks to its continuous innovation, Lankwitzer has supplied energy storage insulation material for over 450 million commercial battery cells. These cells are integrated into a wide range of energy storage systems, serving more than 2 million electric vehicles and plug - in hybrid vehicles globally. As the energy storage industry continues to expand, Lankwitzer’s innovative energy storage insulation material will play an increasingly crucial role in driving the industry’s development.