BYD

Last updated February 1, 2026

720

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Energy absorbing bumper crossmember geometry: BYDRecent Research Landscape

Pedestrian impact forces cause severe lower-limb trauma and costly liability risks. This structure mitigates injury severity through engineered deformation of the bumper support assembly.

What technical problems is BYD addressing in Energy absorbing bumper crossmember geometry?

Inadequate structural impact energy management

(93)evidences

Structural failure or insufficient energy absorption during impact leads to cabin intrusion. Improving dissipation protects occupants and maintains structural integrity.

Inadequate frontal collision energy dissipation

(46)evidences

The keywords indicate a focus on force transmission between separate frame components and the dash panel. Failure to manage these load paths leads to cabin intrusion and structural collapse during collisions.

Inadequate passenger compartment intrusion protection

(42)evidences

Structural failure during high-energy impacts leads to cabin deformation. Preventing collapse ensures survival space and reduces occupant injury risk.

Inadequate front structure crashworthiness

(15)evidences

Insufficient structural integrity and energy dissipation during frontal impacts lead to cabin intrusion and component damage. Improving energy absorption protects critical engine bay components and passenger safety.