ALPHA PRO Shin PadRegular price €39.99 Save Liquid error (snippets/product-template line 120): Computation results in '-Infinity'%
The FUSE Alpha PRO Shin Pad uses a perforated neoprene with air plush lining together with super stretchable neoprene straps. To protect your shins from pedal bites and other impacts we use a Nylon hard shield with EVA foam backing and a super durable Cordura front material. We also added extra padding on the inside to protect the inner part of your leg when catching tailwhips.
The Pad has had a full redesign this year for improved comfort, fit, and durability. The Rip Stop 1100 D Codura massively ups the durability of the front section, and our new anti-bacterial neoprene keeps your pads fresh and ready for use day after day.
Breathable perforated neoprene and Duratex with air plush lining, super stretch perforated neoprene straps.
Nylon hard shield with EVA foam backing, inner leg articulated whip pad.
• NEW anti-bacterial neoprene
• NEW Rip Stop 1100 D official Cordura
• Concealed front pocket for Nylon shield
• Outer whip protection
Certification: EN 14120+A1:2008 - Level 1
DEFENCE FOAM SYSTEM
These specially designed “Grippers” are made from neoprene and silicone and help keep your pads in place and prevent them from slipping or moving about whilst riding. Allowing us to use less or even no straps, the Sharkskin grippers are an essential part in keeping you comfortable and protected whilst riding. Featured across our whole range, this one small, but important, feature helps make FUSE pads simply unbeatable.
An essential ingredient in our game-changing OMEGA pads, this super thin breathable and durable material keeps the back of your pads ventilated and comfortable even during the heaviest of sessions and warmest of climates.
NANOFRONT™ is the world's first ultra-fine polyester nanofiber. With a diameter of merely 700 nanometers, one fibre is 1/7500 of a human hair.
Used on many of our FUSE Protection gloves, the surface density of fabric made with NANOFRONT is about 10 times greater than other fabrics. And since the undulations are at the nano-level, the fiber surface produces a large frictional force for strong gripping power.