Under Armour Flow Futr X 3 SOS "White Green"
Under Armour Flow Futr X 3 SOS "White Green"
Under Armour Flow Futr X 3 SOS "White Green", Img
Under Armour Flow Futr X 3 SOS "White Green"
Under Armour Flow Futr X 3 SOS "White Green", Img 1
Under Armour Flow Futr X 3 SOS "White Green"
Under Armour Flow Futr X 3 SOS "White Green", Img 2
Under Armour Flow Futr X 3 SOS "White Green"
Under Armour Flow Futr X 3 SOS "White Green", Img 3
Under Armour Flow Futr X 3 SOS "White Green"
Under Armour Flow Futr X 3 SOS "White Green", Img 4
Under Armour Flow Futr X 3 SOS "White Green"
Under Armour Flow Futr X 3 SOS "White Green", Img 5
Under Armour Flow Futr X 3 SOS "White Green"
Under Armour Flow Futr X 3 SOS "White Green", Img 6

Under Armour Flow Futr X 3 SOS "White Green"

Ref: 3026834-100
125,00€

80,00€

IVA Incluido

Escolha o seu número:

  • 38
  • 38.5
  • 39
  • 40
  • 40.5
  • 41
  • 42
  • 42.5
  • 43
  • 44
  • 44.5
  • 45
  • 45.5
  • 46
  • 47
  • 47.5
  • 48
  • 48.5
  • 49.5

-
+

o
compre rapidamente sem se inscrever
Descripción de la imagen Descripción de la imagen

Under Armour Flow Futr X 3 SOS "White Green"

Under Armor has upgraded your favorite basketball shoes with an adaptable UA IntelliKnit upper and Gore straps for ultimate support. In addition, UA Flow guarantees the best cushioning and the best grip.

  • Breathable UA IntelliKnit upper increases comfort and ensures stretch and support where it's needed most
  • Gore dynamic compression straps for improved fit and support
  • Bootie design for superior fit, comfort and security
  • Perf X open cell footbed offering low compression, energy return and durability
  • Integrated Pebax® midfoot for greater stability
  • Ultra-light, elastic UA Flow cushioning technology with incredible grip
  • Durable UA Flow outsole offers greater control on the court so you can cut, stop and start faster than ever
  • Removable insole, suitable for replacing with your personalized insole.
  • Shoes created for use on indoor courts (floor or rubber), using them outdoors will significantly reduce their durability.