Bayer

Last updated January 31, 2026

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Intercooling element thermal interface: BayerRecent Research Landscape

Excessive heat during rapid discharge cycles degrades battery health and limits vehicle range. This architecture integrates conductive cooling pathways to maintain uniform cell temperatures.

What technical problems is Bayer addressing in Intercooling element thermal interface?

Excessive battery thermal load

(71)evidences

High-power drive batteries suffer from localized heat accumulation and thermal runaway risks. Resolving this prevents cell degradation and safety failures during high-voltage operation.

Uncontrolled battery gas discharge

(23)evidences

Rapid heat propagation and containment failure in energy storage systems. Preventing catastrophic cell-to-cell failure ensures vehicle safety and system longevity.

Inadequate cell structural stability

(19)evidences

Mechanical failure or displacement of energy storage cells during vehicle operation. Ensuring rigid positioning prevents electrical disconnects and physical damage under load.