In a groundbreaking development, Suase has introduced its state-of-the-art Composite Battery Case Tech, marking a significant leap in battery storage solutions for electric vehicles (EVs). The innovative design combines non-metallic composite materials with traditional metals to enhance the performance and safety of EV batteries.
The battery pack shell is crafted from high-strength glass fiber reinforced composite material, ensuring it is 20% lighter and more cost-effective than traditional metal shells. This reduction in weight translates to increased mileage for EVs, addressing one of the most pressing concerns for EV owners.
Moreover, the manufacturing process of this revolutionary battery case incorporates cutting-edge technologies such as SMC mold (Sheet Molding Compound) and , ensuring precise and uniform shaping of the composite materials. The intricate patterns and designs within the battery case are achieved through meticulous application of pressure and heat, resulting in a robust yet lightweight structure.
Safety is at the forefront of Suase’s innovation. The battery case is fireproof and explosion-proof, mitigating risks associated with thermal runaway. The newly designed cooling system enhances safety protocols while optimizing performance.
Mass production is streamlined as all shell parts are integrated efficiently. With one-piece molding technology, Suase reduces both the cost and production time.
As EVs continue to dominate the automotive market, Suase’s Composite Battery Case Tech promises to be a game-changer in enhancing performance, safety, and efficiency of electric vehicles globally.
Key Features:
- Made of non-metallic composite materials mixed with traditional metals
- High-strength glass fiber reinforced
- Lighter (20%) than traditional metal shells
- Fireproof and explosion-proof
- New efficient cooling system
- One-piece molding reducing cost
