Giro Empire SLX Lace-Up Bike Shoes (White/Black) (39)

Giro Empire SLX Lace-Up Bike Shoes (White/Black) (39)
Price: $349.95
Discontinued Online
This item is discontinued and no longer available for purchase. You may want to search our site for a similar item.

At just 175 grams (size 42.5), the Empire™ SLX sets a new standard for light weight cycling footwear. Yet it doesn’t compromise the structure or stiffness needed to put full power to the pedals thanks to a combination of exceptional fit, a new Evofiber™ SL one-piece upper, and the Easton® EC90™ SLX2 high-modulus outsole. And with replaceable heel pads, full titanium hardware and our adjustable SuperNatural Fit Kit, these are full-featured shoes built to win, and built to last.

Features:
  • Upper: One-Piece Upper Design Premium Evofiber™ SL Breathable Microfiber Sport Laces: Holds a Knot, Durable, and Light
  • Outsole: Easton ® EC90™ SLX2 High-Modulus Carbon Titanium Hardware Replaceable Heel Pads
  • Footbed: Ultralight SuperNatural Fit Kit with Adjustable Arch Support Ultralight Footbed with Adjustable Arch Support X-Static ® Antimicrobial Fiber Travel Bag Included
  • Weight: 175 grams (size 42.5)

Easton® Carbon Composite Outsole:

Unidirectional carbon fiber outsole is engineered to provide a direct connection with the pedal, thanks to class-leading stiffness that puts full effort into forward motion.

SUPERNATURAL FIT SYSTEM:

A superb fit, with adjustable arch support to help optimize comfort and enhance pedaling efficiency.



X-STATIC™ FIBER:

X-Static FIBER – X-Static fibers use natural silver to provide heat conductive and anti-microbial properties to help keep your hands warm, and your gloves free of odor-causing bacteria and fungus.

Click here for Giro size chart. 

 


 

This product was added to our catalog on July 29, 2020

EUUS Men'sUS Women's
353.54.5
3645
3756
385.56.5
396.57.5
407.58.5
4189
42910
439.510.5
4410.511.5
451112
461213
471314
4813.514.5
4914.515.5
501516

Note: All measurements are provided by the manufacturer and may vary depending on how measurements are acquired.