Technology

Sole Rubber

The Hylonomus Resarch-Development team, in collaboration with chemists, materials engineers, and professional climbers, studies the climbing of artificial and natural rock walls. Considering the friction and support needed by climbers, they apply the latest rubber synthesis technology to develop two levels of sticky rubber: FriX Color and FriX Pro. After extensive testing and analysis, they have developed six types of shoe soles by combining three different hardness formulas: HH85/NH75/LH65. These soles are designed to cater to beginners’ basic training, speed training, sports climbing and bouldering advanced training, competitive breakthroughs, as well as big wall climbing, providing optimal friction and edge support.

FriX Color Sticky Rubber

Leaves no black marks on the wall, environmentally friendly and healthy. It not only provides the necessary friction for beginners to learn footwork techniques but also ensures long-lasting durability of the rubber.

Products: PRIMARY\INSPIRING\ GAIN\REMOTE\EXPLORE

FriX Pro sticky Rubber

Offers increased friction and stronger edge support, providing precise control for tackling more challenging routes.

Products: SHARP\WHETSTONE\LEAD\FLAG\SHINING\BEOBE E5\FASTRACK S5

F.F.C.FIT Asymmetrical Last System

Designed based on the understanding of the forces generated during rock climbing and applying principles of biomechanics. The F.F.C.FIT Asymmetrical Last System helps climbers maintain varying degrees of an arching, inward-leaning foot shape and a toe-dipping posture, enhancing toe support and sensitivity, enabling precise and powerful movements of the toes.

4-Level E-Beak system

The design of Hylonomus climbing shoes draws inspiration from nature. The toe is inspired by the beak of an eagle, emulating the curved beak of the eagle to apply principles of sports mechanics and develop the Eagle Beak System（E-Beak）, thereby enhancing the performance of the product.
The E-Beak is integrated through the combination of a rubber outsole, a midsole support system, a back glue attachment process, and a shoe upper’s three-dimensional cutting technique.

Forming a slightly downturned aggressive toe shape, the toes are naturally positioned for optimal power generation, improving precision in exerting force and facilitating mastery of precise and delicate technical movements.

A convex toe zone is formed within the forefoot, allowing the toes to naturally assume a downturned, aggressive position for power generation. This enhances the accuracy of force application and improves precision in delivering instantaneous propulsion.

Maintaining a natural arching, inward-leaning foot shape and toe-dipping posture, a convex toe zone is formed within the forefoot to enhance toe support and sensitivity, enabling precise and powerful movements of the toes.

Maintaining a highly arched, inward-leaning foot shape and a pronounced toe-dipping posture, a convex toe zone is formed within the forefoot, creating an aggressive attack-oriented toe shape. This design provides reliable support and heightened sensitivity to the toes, allowing for the exhilarating sensation of pushing beyond limits.