Adidas Speedex Ultra Boxing Boots Black Oly

SKU:
IF0478
$181.82 $230.49
(You save $48.67 )
(No reviews yet) Write a Review
Adidas Speedex Ultra Boxing Boots - Black/Oly
The best boxing shoes just got better.


These Adidas Speedex Ultra boxing shoes were created with insights from pro fighters, lightweight and airy, their mesh upper has a perforated EVA inner layer to keep you comfortable through intense workouts.


Foam pods keep your heel locked in, so you're stable through every punch, duck, and weave plus underneath the shoe, the torsion system supports rotational movement so you'll never be caught off-guard.


Mesh Upper
The shoe is manufactured to be tight fitting, giving a comfortable, glove-like fit, constructed using a reinforced mesh upper which contains stability ripples in the forefoot that allow for better balance and control.


Stability straps around the ankle and rearfoot allow you to ramp training up a notch without losing grip and control, the shoes are finished with an easy-to-use lace closure system.


EVA Midsole
The midsole of the shoe is constructed using EVA, which offers optimal comfort and responsiveness, allowing you to train and fight longer and more effectively whilst keeping the midfoot firm and offering stability and support.


Despite this lightweight, floaty feel, the outsole of the SpeedexUltra is an Adiwear material, meaning it offers the ultimate in high-wear durability, ensuring it can take whatever the gym throws at it.


Durable Adiwear Outsole
Developed using an Adiwear rubber outsole, the Adidas Speedex shoes ensure improved stability and grip, the rubber outsole has been designed to offer you maximum levels of traction ensuring your feet remain stable on all surfaces.


The flat rubber outsole keeps your foot sturdy and flat for a smooth push-through for stronger, explosive movements by keeping you level and connected to the floor.


Adidas torsion system technology has been added to the Speedex Ultra that allows the forefoot and rearfoot to move independently, resulting in better surface adaptation and stability.