A-Wing XPS 2.6
A-Wing XPS 2.6
Next generation performance, power and control for all riding styles.
Whether you’re free flying, wave riding or sending a freestyle session, the all new A-Wing XPS delivers. We recruited the world’s leading wing and kite designers to craft a wing with a hyper connected riding feel, sublime upwind performance, next level speed and rock solid stability.
Whether it’s freeriding, wave riding or freestyle, the all new A-Wing XPS delivers next generation performance, power and control. We recruited some of the world’s leading wing and kite designers to push this shape to the next level. Each aspect of the new A-Wing XPS was tirelessly thought out, tested and fi nely tuned in a wide range of riding conditions.
An innovative cross panel sail (XPS) design provides an outstanding level of connection when riding. This futuristic panel layout greatly reduces sail distortion by improving load distribution and frame rigidity. This gives all the wing sizes a very direct and controlled feel for easy and comfortable flying.
The XPS’s airfoil section combined with our pre-twist tip geometry, produces incredible speed with sublime upwind performance. This greatly benefits jump amplitude for freestyle manoeuvres and
delivers plenty of hang time and float for smooth landings. This wing is also a wave rider’s dream with little to no luffing or sail flutter and excellent stability, allowing the rider to focus less on the wing and more on shredding the wave.
A newly developed hybrid carbon handle (HCH) design has a rigid carbon interior skeleton and soft padded exterior. This combination offers the best balance of control, comfort and safety.
Armstrong tested hundreds of individual materials during the development of the XPS. We settled on the new generation high quality lightweight Dacron, tried and tested polyester Dacron and Ultra PE woven laminate (ultra-high molecular weight polyethylene) for key reinforcements. The result is a highly refi ned combination of materials which delivers impressive strength to weight, durability and overall performance.