BASF

Last updated January 31, 2026

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Elastomeric cellular spring geometry: BASFRecent Research Landscape

Friction and thermal degradation in suspension systems lead to premature component failure and ride instability. These innovations utilize specific lubricant formulations to maintain consistent damping force and reduce mechanical wear.

What technical problems is BASF addressing in Elastomeric cellular spring geometry?

Excessive suspension impact energy

(7)evidences

Standard suspension components fail to manage high-energy compression events during full strut travel. Mitigating these peak loads prevents structural damage and improves ride quality during bottoming-out events.

Excessive suspension impact energy

(1)evidences

Sudden mechanical release in elastic members causes excessive travel or secondary oscillations. Limiting this motion prevents component damage and improves damping stability.