The e-Mazza raises the bar on e-Enduro performance for mixed terrain. Starting with a defined center tread that maximizes braking traction and acceleration, the e-Mazza uses deep siping in the direction of rotation, allowing the tire to roll fast while still opposing drift. The stepped leading edge rolls like a ramp, but digs in on climbs, making e-Mazza a top choice for both front and rear use.
- Approved for use with hookless rims
- Cornering on the e-Mazza is handled by Vittoria trademark progressive sipe width technology, which gives a gummy inside effective edge, but without the instability that competitors experience on the outside of the tread
- Generous tread depth claws into a range of terrain, and is stabilized with Vittoria proprietary 4C compound layering process
- Four separate Graphene 2.0 compounds are layered, allowing the surface of the tread to remain tacky, while the base remains planted. This ensures each effective edge is kept in place under high cornering and braking loads, leading to reduced rolling resistance, and increased wear life
The e-Mazza raises the bar on e-Enduro performance for mixed terrain. Starting with a defined center tread that maximizes braking traction and acceleration, the e-Mazza uses deep siping in the direction of rotation, allowing the tire to roll fast while still opposing drift. The stepped leading edge rolls like a ramp, but digs in on climbs, making e-Mazza a top choice for both front and rear use.
- Approved for use with hookless rims
- Cornering on the e-Mazza is handled by Vittoria trademark progressive sipe width technology, which gives a gummy inside effective edge, but without the instability that competitors experience on the outside of the tread
- Generous tread depth claws into a range of terrain, and is stabilized with Vittoria proprietary 4C compound layering process
- Four separate Graphene 2.0 compounds are layered, allowing the surface of the tread to remain tacky, while the base remains planted. This ensures each effective edge is kept in place under high cornering and braking loads, leading to reduced rolling resistance, and increased wear life