Fizik R4 Tempo Overcurve Black Les Classiques Shoes
Fizik Tempo Overcurve R4 Black Les Classiques Shoes
The Fizik Tempo R4 Overcurve shoes are made of a stretchy polyurethane amino material combined with a comfortable mesh, resulting in increased performance and providing long-lasting foot support where it is required.
Fizik Tempo Overcurve R4 Black Les Classiques Shoes
The closure is fast and secure, performed using a micro-adjustable BOA IP1 dial in an Overcurve pattern. Overcurve is a sneaker construction with a stepped collar that wraps around the ankle, tracing the natural misalignment of the ankle's two bony protrusions: the lateral and medial. The result is an asymmetrical shape, with the lateral penalties of the shoe curving over the foot from the outside to the inside. The new R4 outsole, moderately stiff, achieves a balance between comfort and pedaling efficiency that makes it a true all-rounder. The R4 has a new, even lower profile and is structurally optimized with a composition that includes 15% injected carbon fiber. R4 outsole provides effective ventilation and internal channeling for temperature management. The cleat position is slightly set back compared to traditional settings, to optimize pedaling efficiency and reduce knee compression. Especially suitable for very aggressive forward aerodynamic positions.
Features:
● Use: Road
● Sole: R4 outsole - carbon injected nylon, stiffness index 7
● Obercurve: asymmetrical construction that ergonomically adapts to the anatomy of the foot.
● PU laminated mesh upper: Enhanced ventilation with support where needed.
● Weight: 230 g (size 42- 1/2 pair)
Technologies:
● BOA IP-1
The new BOA IP-1 winder has a triple functionality: to close the right shoe, the rotor must be turned clockwise and to open it, it must be turned counter-clockwise, the opposite occurs with the left shoe. Raise the rotor to fully open the shoe. The new BOA IP1 rotor has a hexagonal shape, which, together with the rubber finish, makes the grip more effective and with an optimal fit.
REFERENCE: TPR4OXR1K-10