Standard battery enclosures lack the mechanical rigidity to serve as load-bearing components. Enhancing structural integrity allows the battery assembly to withstand vehicle-level mechanical stresses and crash impacts.

The integration of battery trays into vehicle chassis often results in structural failure or excessive deformation under mechanical stress. Solving this ensures the vehicle frame maintains integrity while protecting internal cells from external impact forces.

Standard battery enclosures lack the mechanical strength to protect cells during high-impact collisions. Enhancing structural rigidity prevents catastrophic deformation and thermal runaway during vehicle accidents.

Standard battery housings lack sufficient mechanical strength to protect cells during vehicle impacts or external loading. Improving structural rigidity prevents catastrophic cell failure and enhances overall vehicle safety.