By using standardized design and selecting standard mold bases and standard parts, the design cycle can be shortened and the processing cost reduced, while improving the interchangeability and ease of maintenance of the mold.
Finite element analysis was used to optimize the wall thickness distribution of the shock absorber cushion to ensure uniform deformation of all parts under load and avoid performance degradation caused by uneven wall thickness.
In automotive chassis systems, torsion bar bushings, as key elastic components connecting anti-roll bars to the frame, directly affect the vehicle's handling, comfort, and durability.
Injection-molded shock absorber cushions, as key elastic functional components, are widely used in demanding vibration control applications such as automotive suspension systems, industrial equipment bases, building vibration isolation supports, and even
In modern automotive suspension systems, torsion bar bushings, as key elastic components connecting anti-roll torsion bars to the chassis or bogie, perform multiple functions including vibration damping, cushioning, and positioning.
Vibration and shock are inevitable physical phenomena in the operation of modern machinery, household appliances, and even precision instruments.
