Description Michelin Pilot Sport 5 Acoustic
The Michelin Pilot Sport 5 Acoustic summer tire is one of the versions of the same-name model, differing from it with an increased level of acoustic comfort. In terms of driving characteristics, they are identical. It stands out for its reliable grip on dry and wet surfaces, quick response to steering wheel turns, and excellent wear resistance for its class.
A distinctive feature is the presence of a special insert made of foamed polyurethane on the inside of the tread. The lightweight material, due to its porous structure and elasticity, absorbs noises and vibrations that occur when the tire is rolling. This significantly improves the acoustic comfort inside the car, where the low-frequency hum is almost imperceptible even on "rough" asphalt.
The tread pattern is notable for the asymmetrical arrangement of elements and their distribution over functional areas. The outer side, which contains more rigid ribs and blocks, increases stability on dry surfaces. The inner part of the tread with a negative profile allows maintaining reliable handling in rainy conditions.
Another feature of the tire is the breaker construction, located directly under the tread. It is a nylon cord reinforced with aramid fibers. Their presence eliminates the main drawback of nylon cord threads, namely the "memory effect". Often, when stretched, they do not restore their original shape. Aramid fibers not only prevent deformation but also give the breaker additional stiffness. On the go, this manifests itself in the form of high stability of coupling properties and precise handling when driving at high speeds.
Main features of Michelin Pilot Sport 5 Acoustic
- a special insert made of foamed polyurethane on the inside of the tread reduces noise and vibrations from tire rolling;
- an asymmetric tread pattern with division into functional areas provides balanced driving properties;
- a "hybrid" breaker, lightweight and resistant to deformation, increases the stability of coupling and precision of handling at high speeds.