The meteoric steel design brings the swift sensation of speed and allows the driver to enjoy the instantaneous speed.
The asymmetrical shoulder design with soft inside and rigid outside ensures wet performance while improving tire handling performance and bringing driving pleasure
The innovative sound storage cabin can effectively warm up the noise generated when driving, and the sound waves will disappear into the air.
Optimal groove ratio(5 grooves&4 grooves) improve the handling ability while ensuring the braking and safety performance of the tire on slippery roads.
Comfortable silent performance Adopt 5 frequency pattern block, vittual analysis and optimized permutation design, effectively reduce the pattern block noise resonance phenomenon, reduce product noise, improve driving comfort
Excellent wetland performance Optimization of longitudinal/transverse groove design and the use of the best groove curve improve the drainage performance of tires in wetlands and greatly improve the safety performance of tires.
Extraordinary handling performance.The internal and external asymmetrical shoulder design is adopted to ensure wet performance while improving tire handling performance, bringing driving pleasure.
Excellent wear resistance. The optimum sea-land ratio and optimized steel sheet design can prevent the stress concentration when the tire is running so that all points of the tire are uniformly wornand the wear performance is improved.
Multi-directional groove distribution design: It is beneficial to improve the stability of driving in the ice and the safety of driving.
Diamond Angle cutting design:Can effectively pierce through the water film stabilize on ice and improve the anti-slip effect.
High-density 3D steel sheet design:While ensuring the softness of the grounding surface of the tireit also increases the strength of the overall pattern block to ensure super grip and reduce the feeling of driving lag.
High-score white carbon black formula design:Improve tire grip in cold environments and ensure tire safety performance at low temperatures