Bayer

Last updated January 31, 2026

432

Innovation Areas

13,147

Inventors

104

Collaborations

Pressure relief venting architecture: BayerRecent Research Landscape

Uncontrolled internal pressure during thermal runaway leads to catastrophic cell rupture and fire. These innovations engineer specific venting pathways and end plate structural integrity to ensure predictable gas release and prevent housing failure.

What technical problems is Bayer addressing in Pressure relief venting architecture?

Internal pressure buildup failure

(100)evidences

Structural vulnerability during mechanical collisions leads to catastrophic housing failure and internal cell damage. Enhancing energy absorption prevents deformation and maintains the integrity of high-voltage components.

Interconnect mechanical failure

(39)evidences

Inconsistent electrical contact and structural instability between multiple storage cells during assembly or operation. Ensuring robust connectivity prevents power loss and thermal hotspots in high-density modules.

Inadequate internal pressure regulation

(27)evidences

Excessive gas accumulation within battery cells leads to mechanical deformation and catastrophic rupture. Mitigating this risk ensures structural integrity and prevents thermal runaway during operation.