Women's Attack Road Shoes
Women's Attack Road Shoes
Women's Attack Road Shoes
The Women's Attack Road Cycling Shoe delivers race-inspired performance in a streamlined women's road cycling shoe designed for riders ready to take the next step. Whether you're training for your first event, riding fast group rides, or building endurance on long road miles, it combines efficient power transfer, lasting comfort, and a secure fit to help you ride with confidence.
A heavily perforated synthetic leather upper with low-profile bonded construction creates a lightweight, breathable road bike shoe that keeps your feet cool while providing all-day support. The single-dial BOA®-powered wrap configuration delivers a micro-adjustable, precision fit that locks in the heel to deliver improved power transfer and energy efficiency, while an independent forefoot strap fine-tunes comfort where it matters most.
A 1:1 Composite Power Plate outsole featuring a carbon fiber forefoot insert maximizes efficient power transfer while maintaining comfort on long rides. Compatible with both two-bolt and three-bolt cleats, it gives riders the flexibility to choose the pedal system that best fits their riding style.
Specs & Features
- 3-bolt cleat compatible
- 1:1® Composite Power Plate with carbon fiber forefoot insert provides lightweight stiffness and durability (stiffness rating 8)
- EVA foam and rubber heel bumper gives stability and walking comfort
- Soft TX lace guides eliminate pressure and hotspots
- BOA® Fit System, featuring an L6 dial, for a micro-adjustable, zonal precision fit
- Perforated synthetic leather upper is durable and breathable
Materials & Care
Upper: 100% rubber/plastic | Bottom: 71% nylon plastic, 23% carbon fiber, 4% rubber, 2% steel
Wash with simple detergents without additives (Clear or Free). Wash gentle cycle. Close all zippers and hook and loop closures (“Velcro”). Tumble dry low (fabric should not be hot to the touch). When in doubt (or to save energy) hang dry. Do not use dryer sheets. Products with scents, softeners, etc. will inhibit performance of technical fabrics.