Puma DEVIATE NITRO 3
The Puma DEVIATE NITRO 3 is a racing running shoe designed for fast performance in marathons or half marathons. However, they will provide you with great cushioning and comfort when running at all distances.
The driver of speed is the PWRPLATE carbon plate, which runs through the middle of the entire midsole, and which ensures not only the stability of the shoe, but also the perfect transfer of energy from landing to rebound.
The super powerful NITRO ELITE foam is inflated with nitrogen gas to lighten the shoe as much as possible, while ensuring perfect cushioning that you will really appreciate on a long run.
The high-quality mesh upper provides you with optimal breathability.
Puma DEVIATE NITRO 3 parameters
Weight: 250 g
Drop: 10 mm
Puma DEVIATE NITRO 3
- NITRO ELITE's premium performance foam provides superior response.
- PUMAGRIP's durable rubber reliably adheres to any surface.
- The innovative PWRPLATE carbon plate is designed for maximum energy transfer.
Puma FAST-R NITRO ELITE 2
The revolutionary look of the Puma FAST-R NITRO ELITE 2 is designed to minimize the weight of the shoe and bring maximum speed with the help of cutting-edge technology.
The main "drive" of the shoe is the PWRPLATE carbon plate, which is extended up to the tip of the shoe in order to speed you up as much as possible and use the energy from the landing to the rebound to the last molecule.
The two-part midsole made of super powerful NITRO ELITE foam infused with gaseous nitrogen takes care of the perfect use of the entire foot, and at the same time makes the shoe as light as possible.
Meanwhile, the sophisticated PUMAGRIP-LT technology on the sole ensures excellent grip even on wet surfaces. The PWRTAPE reinforcement helps the foot sit perfectly in the shoe.
The upper is made of light and breathable ULTRAWAVE material.
Puma FAST-R NITRO ELITE 2 parameters
Weight: 265 g
Drop: 8 mm
Puma FAST-R NITRO ELITE 2
- NITRO ELITE's premium performance foam provides superior response.
- The PWRPLATE carbon plate drives you forward, using the energy from the landing to the rebound down to the last molecule.