Product Description
Under Armour Flow Velociti Wind 2 running shoes. The lightweight, rubber-free and durable cushioning gives a floor-close, non-slip running feeling. The kind of speed that feels like having the wind in your back. Breathable warp upper. The Flow Velociti Wind running shoes have been designed for a comfortable and dynamic fit and are made with Under Armour's signature warp technology. UA Warp technology moves in harmony with the foot to improve support. It adapts perfectly to the foot to ensure improved performance as the feet move through the gait cycle. Due to the supportive bands, Warp technology increases tension where it's needed and relaxes the foot where it's not needed. Plus, UA Warp fixes the foot on the UA Flow midsole without hindering the natural movement of the foot. The warp technology ensures a light weight and increases breathability. The breathable material allows cool air to flow through the upper while allowing warm air to escape. The upper is rounded off by a lacing system that fixes the midfoot so you can enjoy distraction-free steps. Flow midsole. The Flow Velociti Wind is one of UA's lightest midsoles and has been developed with FLOW technology. Under Armour has developed a new, dynamic, one-piece midsole technology that delivers responsive as well as long-lasting cushioning while remaining extremely lightweight. The foam has a naturally cling traction, so the traditional voluminous overlays of the past are no longer needed. The midsole is designed to provide responsive energy return and an abundance of cushioning, so you can continue running longer and in full comfort. In addition, tracked, analyzed
Product Information
- Warp technology - lightweight support and maximum breathability of the upper material.
- Traditional lacing - holds the midfoot in the shoe firmly and securely.
- Flow Midsole - One-piece midsole with excellent responsiveness and long-lasting cushioning.
- UA MAPMYRUN - Tracks and analyses the run.
- Durable outsole - Provides traction and grip on different surfaces.