In energy storage and energy equipment, components such as housings, shells, and supports often need to simultaneously fulfill multiple functions, including load-bearing, protection, installation, and heat dissipation. Aluminum alloy die casting, through a one-time molding process, can structurally integrate multiple previously dispersed parts, reducing welding and assembly steps.
Energy storage systems and energy equipment are typically modular, requiring components to maintain a high degree of consistency under mass production conditions. Under conditions of mold control and stable process parameters, aluminum alloy die casting can achieve high dimensional accuracy and repeatability, meeting the requirements for assembly precision and interchangeability in large-scale applications.
With the advancement of compact equipment design, energy storage and energy equipment increasingly employs thin-walled structures with complex ribs. Aluminum alloy die casting has significant advantages in filling capacity and forming freedom, enabling the simultaneous forming of complex cavities, reinforcing ribs, and localized functional structures.
