When it comes to scooters, finding the perfect balance between performance, and safety is the most important for a truly enjoyable ride. Hence, look no further than the Avon Viper Stryke, a great tire designed for scooters, that pushes your riding experience to new heights. This model promotes utility with safety, durability, and comfort while having both front and rear uses.
Thus, one unique feature of the Avon Viper Stryke is the smart channel placement. This extends the surfaces where water gets thrown away. As a result, the driving experience becomes safer, as the risk of sliding reduces too. Moreover, modern sidewalls are an essential part of the tire's construction. They help with increased control over the scooter, at the maximum speed of 62 mph. Along with this comes good tire shape and stability, making it clear that the tire can support the weight of the scooter and the rider. This strength is crucial for maintaining proper handling during the ride.
Equally important, the Avon Viper Stryke has resistant layers within the internal build. These layers help protect against sharp objects, debris, and potential punctures that are common on city streets. Puncture resistance is key for reducing the risk of flats and maintaining a reliable ride. And, the special tread design gives a lower rolling resistance. It improves energy efficiency and potentially enhances overall fuel economy, making it easier for the rider to navigate through city traffic. Adding to this, the rubber compound helps with better traction and grip on the road. Finally, the available sizes on the US market start from 10'' and go up to 16'' rim diameters.
Features and benefits
- Unique scooter tire with excellent overall performance.
- Special tread design gives a lower rolling resistance, which improves fuel economy.
- Modern sidewalls promote stability at all times.
- Resistant internal build extends the overall life of the tire.
- Wide channels reduce the risk of sliding, as they quickly throw away water.
- Optimized rubber compound assures damage resistance.