BYD

Last updated February 1, 2026

720

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Structural battery enclosure architecture: BYDRecent Research Landscape

Mechanical failure and thermal runaway risks in high-density packs increase as cell counts grow. These innovations engineer the physical enclosure and cell-to-pack integration to ensure structural integrity and safety.

What technical problems is BYD addressing in Structural battery enclosure architecture?

Inadequate structural integration density

(75)evidences

Conventional energy storage systems suffer from excessive parasitic mass and volume overhead. Reducing these spatial and weight inefficiencies increases vehicle range and structural integrity.

Inadequate structural integration density

(68)evidences

Standard battery packs suffer from poor load-bearing efficiency and excessive volume consumption within the chassis. Resolving this allows for higher energy density and improved crash safety through unified assembly architecture.

External thermal damage vulnerability

(42)evidences

Sensitive electrical components and battery cells are susceptible to failure when exposed to extreme external heat or fire. Mitigating this vulnerability prevents catastrophic thermal runaway and ensures structural integrity during thermal events.