The Bridgestone EP100A tire is a summer eco-friendly model of the latest generation. During the development of this tire, high-tech achievements and the latest innovations in the tire industry were used.
The Bridgestone EP100A model uses special polymer additives in the upper tread layer, which made it possible to reduce rolling resistance. It also contains silicon additives that have limited fuel consumption and reduced harmful emissions into the atmosphere. As a result, rolling resistance has been reduced by 20%, and carbon dioxide emissions have been reduced by 6%. The specially designed tread has significantly improved braking performance, directional stability, and reduced noise levels.
The developers of this tire were able to optimize the tire's contact zone with the road. The modified new rubber compound has reduced the risk of aquaplaning and improved traction on wet road surfaces. You will be able to feel a big difference when driving on these tires compared to other models. This tire will provide you with an increased level of comfort and safety.
Main features of the Bridgestone EP100A tire
- The tire was produced using UNI-T technology, which consists of: computer-aided design of the tread pattern, an improved rubber compound with high-stability nano-modified carbon, and a special densifying insert under the tread. As a result, the tire has an ideally round shape, mathematically calculated and controlled by a computer during production. Therefore, the model has: revolutionary low rolling resistance, ultra-high durability, and minimal degradation of worn tire characteristics.
- The tire's tread pattern, consisting of narrow solid ribs and diamond-shaped blocks with transverse small grooves, provides minimal rolling resistance, excellent directional stability, and high maneuverability.
- Three longitudinal deep grooves quickly remove water from the contact patch, reducing the effect of aquaplaning.
- The specially reinforced sidewall prevents tire deformation under increased loads.
- The tire does not contain high-molecular aromatic oils, which contributes to the reduction of CO2 emissions and fuel economy.