BYD

Last updated February 1, 2026

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Rigid end plate compression assembly: BYDRecent Research Landscape

Mechanical deformation of battery cells during cycling causes internal short circuits and thermal runaway. High-stiffness end plate geometry maintains compression to ensure structural integrity and safety.

What technical problems is BYD addressing in Rigid end plate compression assembly?

Structural instability under mechanical stress

(118)evidences

Rigid end plate assemblies often suffer from vibration-induced fatigue and thermal expansion stresses at cell connection points. Mitigating these mechanical failures ensures long-term electrical continuity and pack structural integrity.

Structural deformation under internal pressure

(89)evidences

Cell swelling and gas generation during cycling cause mechanical stress that compromises pack integrity. Preventing housing distortion ensures safety and maintains electrical contact pressure.

Internal component mechanical displacement

(65)evidences

Mechanical failure and shifting of heavy battery components during high-inertia movement. Preventing structural collapse ensures safety and prevents electrical shorts during vehicle operation.