EXPAND YOUR MIND, EXPAND YOUR MOUNTAIN
The Ultra Mind Expander is a super charged alternative all-mountain board designed for high speed slashing and freeriding. We stepped up the top speed of the playful Mind Expander by adding camber, premium materials and a stiffer flex to the Ultra Mind Expander. Directional rocker nose + tail, camber underfoot and Traction Tech 3.0 give the Ultra unmatched float and edge hold while the Ash Wood Veneer topsheet, Basalt Power stringers, FSC Power Core and Triax Carbon Innegra suck up chatter in rough terrain. The Ultra shares the standard Mind Expander’s 3D Contour Base 3.0 and hybrid directional shape. The blunted nose, full size tail and tight sidecut offer the nimble maneuverability of a directional board matched with the freestyle abilities of a directional twin.
Creative shredders who ride fast in any snow condition need this high performance edition of Chris Christenson and Jeremy Jones’ signature surf shape.
- Directional Shape
- Directional Flex Pattern
- Blunt Nose
- Traction Tech 3.0
- Progressive Sidecut
Christenson Surf Camber Rocker - Custom rocker/camber flex pattern designed by surf shaper Chris Christenson. The rockered tip floats the board’s nose and improves maneuverability while the camber underfoot provides edge hold and response. A slightly rockered tail maintains the power and stability of a traditional board and helps keep the tail catch-free initiating turns and landing switch.
3D Base Contour 3.0
- Freeride focused 3D-base contours featuring an even balance of 7mm of spoon bevel in the nose and 7mm of spoon bevel in the tail. Spoon bevel starts at the rocker point.
Ultra Construction - Ultra Construction is the redefinition of what it takes to build a snowboard.We’ve tested every inch of the board to precisely position materials exactly where they are needed while eliminating all excess materials. Combining these innovative construction techniques with superlight wood cores and carbon fiber deliver revolutionary results. Jones Ultra boards are the lightest, yet most durable snowboards on earth.
FSC™ Power Core - Triple-density full wood core featuring hardwood bamboo stringers for added pop and durability plus paulownia for weight savings.
Ash Veneer - Thin wood veneer layer that functions as both a protective topsheet and a global reinforcement layer. The thin wood stringers that make up the wood topsheet provide even flex and suck up chatter from uneven snow conditions.
Sintered 9900 Base - Made from Ultra-High Molecular Weight Polyethylene (UHMW-PE) and Carbon. This ultra-fast base is easy to repair thanks to the UHMW-PE.
Triax Carbon/Innegra Reinforcement - New Carbon Innegra fiber forms an ultra-tough hybrid composite layer that dampens the board torsionally and from tip to tail. Made in the USA and featured on the Aviator, Airheart and Lone Wolf.
Power Sustainable Basalt Stringers - New sustainable stringer made with 100% natural fibers. Basalt stringers improve torsional response and transfer power from under your feet to the tips of the board to help eliminate nose and tail chatter.
Triax Fiberglass - Multi-axis, stitched fiberglass laminate that offers a precise and responsive ride in any terrain or snow conditions.
Oversized Recycled Edges - All Jones boards are made with oversized recycled steel edges for added durability and improved production sustainability.
Recycled Rounded ABS - New rounded sidewall finish that improves board durability by protecting top sheet from chipping. Available on all splitboards and Surf Series models.
Wend Natural Wax - Jones boards are ready to shred straight out of the shop and are factory waxed with WEND natural wax.
Super Sap Bio Resin - All Jones boards are now built with bio-based, renewable epoxy instead of petroleum based epoxy. The raw materials used to make Super Sap Bio-Resin are co-products or waste products of other plant-based industrial processes. Producing Super Sap requires 33% less greenhouse gas emissions than conventional epoxy.
Flip-Flop Base - By flip flopping the base graphic colors, P-Tex waste is drastically reduced by increasing the material yield.