EES Europe 2026 officially kicked off on June 23 at Messe München. It is the largest and most international exhibition for batteries and energy storage systems in Europe. Mingrui Ceramic, one of China’s leading manufacturers of customized ceramic parts, is exhibiting at this event, with our core materials including alumina, zirconia, silicon carbide and silicon nitride ceramics.
One of the key application areas for technical ceramic parts is batteries and energy storage systems. With the rapid development of new energy technologies, the demand for ceramic components continues to grow significantly. Thus, Mingrui Ceramic made a strong impression at the exhibition with its cutting-edge ceramic solutions for the battery and energy storage industry.
During the exhibition, Mingrui Ceramic showcased a range of ceramic components used in batteries and energy storage systems, along with large-size ceramic parts for semiconductor applications. A highlight is our precision
ceramic guide rail for semiconductor lithography equipment, with dimensions of 1500 × 360 × 280 mm, designed for high-precision and high-load operating environments. This demonstrates our capability in manufacturing high-performance large-size ceramic parts for next-generation semiconductor equipment, which attracted a large number of visitors who stopped to enquire at the stand.
In recent years, driven by the increasing share of new energy and the rapid development of artificial intelligence, the battery and energy storage market has been experiencing rapid growth. This has also driven the development of the industrial ceramic industry. So what are the main ceramic components used in the battery and energy storage sector? The main ceramic parts used in batteries and energy storage systems include insulating structural parts, thermal management components and precision ceramic parts for battery manufacturing equipment. Among these, aluminium oxide ceramics are most commonly used in battery modules for
ceramic insulating plates, support components, positioning elements and ceramic isolators, offering high electrical insulation, good mechanical strength and stability; materials such as aluminium nitride (AlN) and zirconia ceramic are frequently employed in thermal management and high-toughness structural applications, such as thermally conductive insulating substrates and ceramic support components; Furthermore, high-performance ceramics such as silicon carbide (SiC) ceramics can be used in equipment components requiring wear resistance, corrosion resistance and high rigidity, such as guide rails, nozzles, pump body parts, valve seats and robotic arm end-effectors, and are widely utilised in manufacturing processes such as battery coating, assembly and testing.
