| Availability: | In stock |
The Union Source Pro Snowboard Bindings are built for advanced riders who demand elite-level precision, lightweight construction, and maximum board feel. Designed in collaboration with pro rider Torstein Horgmo, this high-performance binding delivers powerful edge-to-edge response while maintaining a controlled, slightly more forgiving feel than ultra-stiff race setups.
Featuring Union’s all-new Direct Connect System and forged carbon construction, the Source Pro maximizes energy transfer while reducing weight. A reduced baseplate height improves snow feel and responsiveness, while Hybrid 2.0 ankle straps and high-end dampening components ensure comfort and control even in the most demanding terrain conditions.
✔ Direct Connect System delivers unmatched energy transfer and board feel
✔ Forged carbon construction reduces weight while increasing response
✔ Stiff flex provides powerful control for aggressive riding
✔ Reduced baseplate height enhances precision and snow feedback
✔ Hybrid 2.0 ankle straps balance comfort with high-end performance
✔ Hi-Flex EVA bushings absorb vibration in rough terrain
✔ Magnesium ratchets ensure smooth, reliable tightening
✔ Pro-level design developed with Torstein Horgmo
Category: Men’s Advanced / Pro All-Mountain Snowboard Bindings
Flex: 8–9/10 Stiff Performance Flex – aggressive and highly responsive
Baseplate: S10 Halo Duraflex CB – lightweight forged carbon composite construction
System: Direct Connect System – enhanced energy transfer and board feel
Heelcup: Extruded 3D Aluminum – durable, high-precision support (lifetime warranty)
Straps: Hybrid 2.0 Ankle Straps – performance-focused comfort and control
Ratchets: Magnesium S1 Ratchets with Aluminum Base – smooth, durable operation
Bushings: Hi-Flex HP EVA – vibration dampening and impact absorption
Mounting System Compatibility: 4x2 snowboard mounting systems
Ride Style: Aggressive all-mountain, carving, freeride, technical terrain
Best For: Advanced to expert riders seeking maximum response, precision, and lightweight performance across demanding conditions
