Bayer

Last updated January 31, 2026

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Vehicle energy storage integration architecture: BayerRecent Research Landscape

Thermal and structural instability in high-capacity battery packs increases safety risks and assembly costs. This architecture engineers the physical integration between the storage cells and the vehicle chassis to mitigate mechanical failure.

What technical problems is Bayer addressing in Vehicle energy storage integration architecture?

Structural integration space constraints

(58)evidences

Mechanical stress and physical displacement of energy cells during vehicle operation lead to safety failures and performance loss. Securing structural integrity prevents catastrophic cell degradation and electrical shorts.

Thermal instability during discharge

(25)evidences

Trapped liquids or gases within energy storage enclosures cause corrosion and internal short circuits. Effective drainage prevents catastrophic failure and structural degradation.

Undetected battery thermal failure

(21)evidences

Battery cell failure leads to catastrophic heat release and structural integrity loss. Preventing this failure mode ensures vehicle safety and containment during extreme temperature events.