The Women’s Disruptive Bib Shorts are designed for endurance performance and consistent comfort. The main fabric provides stretch with reliable shape retention, ensuring a secure fit across repeated rides. A single stitching line on the leg panels helps reduce friction while maintaining a clean aerodynamic profile.
Printed silicone grippers on the inside of the legs hold the shorts in place without digging in, and high-stretch bib straps provide stable support while adapting comfortably to different rider heights. At the core, a premium Italian-made Elastic Interface® chamois with high-density inserts delivers targeted pressure relief and saddle stability on extended rides.
Built for comfort and performance over distance.
The Women’s Disruptive Bib Shorts are designed for endurance performance and consistent comfort. The main fabric provides stretch with reliable shape retention, ensuring a secure fit across repeated rides. A single stitching line on the leg panels helps reduce friction while maintaining a clean aerodynamic profile.
Printed silicone grippers on the inside of the legs hold the shorts in place without digging in, and high-stretch bib straps provide stable support while adapting comfortably to different rider heights. At the core, a premium Italian-made Elastic Interface® chamois with high-density inserts delivers targeted pressure relief and saddle stability on extended rides.
Built for comfort and performance over distance.
Size:
Color:
Fit & Construction
Ergonomic structure supports long-ride stability and unrestricted movement
Single stitching line on leg panels reduces friction and maintains a smooth finish
High-stretch bib straps adapt securely to different rider heights
Fabric & Grip
Elastic main fabric provides stretch with dependable shape retention
Lightweight feel supports comfort during sustained efforts
Internal printed silicone grippers secure the shorts without digging in
Chamois
Premium Italian-made Elastic Interface® pad with high-density inserts
Designed for pressure relief and saddle stability during extended efforts
