The K2 Reckoner 102 '26 is the ultimate all-mountain freestyle ski for riders who demand versatility, energy, and performance across every terrain. Whether you're lapping the park, carving groomers, or chasing powder stashes, this ski is engineered to deliver a playful yet stable ride that adapts to your style and the mountain's mood. With a progressive design and a blend of cutting-edge materials, the Reckoner 102 is the go-to choice for intermediate to advanced skiers who want one ski to do it all.
Key Features
- All-Terrain Twin Rocker
Gradual early rise in both tip and tail for enhanced versatility and control across varied snow conditions. - Aspen Micro Block Core
Multiple small Aspen stringers provide a consistent flex, smooth feel, and damp ride. - Carbon Boost Technology
Longitudinal carbon fiber strands add pop, stability, and edge hold without adding weight. - Triaxial Braid Construction
Patented fiberglass interlocking around the core enhances torsional strength while maintaining a lively flex. - Bio Resin
Eco-conscious resin improves bonding, cold temperature strength, and sustainability. - Twin Tech Sidewalls
Full-length sidewalls for improved durability and energy transfer. - Sintered Base
Durable and fast base material for optimal glide and longevity.
Highlights
- Designed for intermediate to advanced skiers
- Ideal for all-mountain terrain: powder, groomers, steeps, and park
- Rocker/Camber/Rocker profile for float, edge hold, and easy turn initiation
- Partial twin tip for switch skiing and maneuverability
- Medium turning radius (17.7m) for balanced agility and stability
- Lightweight yet powerful construction for all-day performance
Technologies
- Spectral Braid
A dynamic fiber placement technique that enhances torsional stiffness and responsiveness. - Carbon Boost
Adds snap and liveliness for playful skiing and confident carving. - Triaxial Braid
Reinforces the ski’s structure for better control and durability. - Bio Resin
A sustainable alternative to traditional resins, improving strength and environmental impact.
