Nexen N’Fera AU7
This model is an ultra-high-performance all-season tire designed especially for drivers of sport coupes, luxury coupes, and performance sedans, who are looking for superior dry and wet traction, responsive handling along with strong acceleration, and braking performance.
The N’Fera AU7 comes with an advanced all-season compound molded into a symmetric tread pattern that presents a 3D sipe and fin sipe designed to provide maximum grip, low rolling resistance, and good fuel efficiency. This model is made with a modern rubber mixture enriched with silica compounds designed to ensure extra flexibility regardless of the prevailing temperature.
For safety reasons, this model has four wide longitudinal grooves combined with lateral tread grooves designed to enhance drainage performance providing increased hydroplaning resistance, maintain road grip, and driving stability.
This tire has a larger tread contact area which promotes driving stability and optimum distribution of pressures. Due to the optimized tread pattern, this model shows a short braking distance, higher driving precision, and ensures optimum stability. The N’Fera AU7 provides acoustic comfort thanks to its unique tread pattern that dampens sound generated during rolling, making for a quiet and pleasurable drive.
Nexen N’Fera AU7 is available from 16 to 20-inch sizes, with H, W, and Y-speed ratings, backed by Nexen Total Coverage Warranty.
Features and benefits
Black Sidewalls.
All-season tread pattern.
Larger tread contact area which promotes driving stability and optimum distribution of pressures.
Excellent acoustic comfort thanks to its unique tread pattern that dampens sound generated during rolling, making for a quiet and pleasurable drive.
Latest rubber product with revolutionary new compound, tread technology, and structure.
Four wide circumferential and lateral grooves provide strong braking, acceleration, and handling performance.
Developed with eco-friendly tread compounds for low rolling resistance, reduced fuel consumption, and less CO2 emissions.