Under Armour Charged Commit TR 3 Training Shoes
Keeping you completely committed and focused on your training, the lightweight and extremely comfortable Under Armour Charged Commit TR 3 Training Shoes are the perfect companion for all training sessions.
Lightweight Mesh Upper
Surrounding the upper of the Charged Commit TR 3 Training shoes is an ultra-lightweight mesh. This encases the foot, allowing air to enter and exit freely to provide a ventilated feel within. By being so lightweight, the mesh contributes to the overall lightweight nature of the shoes. This makes all training exercises easier as you will feel cool and lightweight on your feet. The upper also has textured overlay details that will provide structure to the shoe. A dual-external heel counter hugs the foot for added stability at the rear of the foot, whilst the material is thicker over the toes to add a little extra security. Secure lacing will allow you to find the perfect comfortable fit. A soft and padded tongue sits extremely comfortably on the ankle, removing the risk of irritation by rubbing and chafing.
Charged Cushioned Midsole
Engineered with Charged Cushioning, the midsole boasts a compression-moulded foam for durable cushioning, optimum energy return, and even greater responsiveness. The compression-moulded foam matches the energy given with maximum power returning allowing you to give your optimum performance for even longer. The cushioning absorbs the impact of your foot strike attenuating shock impact to reduce fatigue and protect your joints whilst converting the energy into responsive comfort. The removable comfort sockliner provides hygienic in-step comfort; the breathable sockliner allows the feet to the breath whilst offering a comfortable and responsive ride.
Strategically Placed Rubber Traction Outsole
The cushioning capabilities of the midsole work in harmony with strategically placed rubber, inserted in zones likely to face impact. With this clever implement, Under Armour provides a shoe possessing a longer lifespan whilst simultaneously reducing weight along the way. Greater traction with less weight is generated, allowing the wearer to tackle differing terrains with maximum outcome.