Pro-caliber control for experiencing the entire mountain.
Boasting legendary all-terrain performance, it's no wonder the women's Burton Lexa Re:Flex Snowboard Bindings are a top pick for a whole host of Burton (and non-Burton) pro riders. Experiment with the hi-back's zero forward lean for a more playful feel. Crank the straps for a supportive fit that cradles the foot and works with the hi-back for the consistent, responsive feel that earned this all-mountain binding its pro-level reputation. Re:Flex baseplates are universally compatible with all major mounting systems.
Response / Personality: Stiff
Ankle Strap
Hammockstrap 2.0 ankle strap has a durable and low-profile design, locking you in and giving you instant control of your board
Toe Strap
Supergrip Capstrap toe strap wraps over the toebox of the boot and is fully injected to reduce waste
Cushioning
Re:Flex FullBED cushioning system provides full underfoot cushioning, maximizing comfort while minimizing fatigue, and features a trap-door design for easy-access to mounting hardware
Baseplate
Single-component baseplate construction features one material throughout, providing consistent response and feel while riding on any terrain
Nylon composite material blended with 30% short-glass provides playful response
Mounting System
Re:Flex mounting system dramatically improves board flex and feel while also reducing weight
Universally compatible with all current snowboard mounting systems.
Forward Lean
Zero forward lean hi-back is completely vertical and designed for riders who prefer a more playful and relaxed feel
DialFLAD system features a rotating dial for making adjustments to the forward lean angle of the hi-back
Buckles
Single-component Smooth Glide Buckles are easy to secure and feature aluminum levers and a steel base for durability
Hi-Back
Single-component canted hi-back construction provides immediate response and allows you to manipulate the overall flex profile of the board
The Hinge hi-back technology eliminates hardware and weight, allowing for independent adjustment of your forward lean and hi-back rotation