Bayer

Last updated January 31, 2026

432

Innovation Areas

13,147

Inventors

104

Collaborations

Axial piston bearing housing geometry: BayerRecent Research Landscape

Mechanical vibration and axial misalignment in high-speed electric drive units cause premature bearing failure. These innovations utilize integrated spring-loaded housing geometries to maintain precise shaft alignment and dampen structural loads.

What technical problems is Bayer addressing in Axial piston bearing housing geometry?

Excessive structure borne noise transmission

(10)evidences

Mechanical oscillations and kinetic energy transfer from the axle steering unit compromise structural integrity and ride quality. Mitigating these vibrations prevents component fatigue and improves operational stability.

Bearing housing structural deformation

(8)evidences

Uncontrolled structural oscillations and noise transfer between the drive unit and vehicle chassis. Reducing these disturbances improves passenger comfort and component longevity.

Excessive powertrain vibration transmission

(7)evidences

Mechanical oscillations and acoustic noise generated by high-torque electric drive units propagate through rigid axle supports. Mitigating these disturbances improves passenger comfort and structural longevity.