The topsheet has to combine two important properties: protection against mechanical stress and transfer of bright colors of the image.

Modified two-layer polyamid is highly resistant to mechanical stress and protects graphics from ultraviolet radiation, which over time reduces the brightness of paints.


Fiberglass is an important component, performing protective and strength functions. In itself, fiberglass plays the role of a corset, which transmits the physicomechanical properties of wood, without leading to its destruction under the influence of critical loads.

The combination of fiber directions allows you to create unique properties for each snowboard model.

Biaxial fiberglass (0, 90)

has good longitudinal stiffness, low torsional stiffness and light weight, which provides good elasticity, maneuverability performing sharp turns and brings lightness to the product.

Biaxial fiberglass (+-45)

combines low longitudinal stiffness and light weight.

Triaxial fiberglass (0, +-45)

having high stiffness in three directions, it is an ideal challenger for a combination of elasticity and stability when riding.


Wood is an ideal material for creating a core, as it harmoniously combines flexibility and low weight.

The wood fibers are directed along the main axis, like strings, and are in constant tension, working as a shock-absorbing and damping mechanism.

We pay special attention to the selection of wood. Each core is tested for strength and flexibility before becoming part of a future snowboard.

The combination of different types of wood allows you to create the necessary stiffness for a particular model of snowboard.

Flex European aspen.

The perfect combination of weight, strength and flexibility.

Flex European aspen/longitudinal birch stringers along inserts.

More springy due to birch stringers. Birch provides additional strength in places of inserts, which is suitable for more aggressive riding.


Due to strength and low weight, carbon is an indispensable component for increasing stiffness in the required areas, or throughout all the working area. Carbon has a high tensile strength, thereby creating an additional reinforcement of the core. Depending on the purpose of the snowboard, carbon fiber stringers are located in different zones and increase the physical and mechanical properties of the snowboard.


Aramid has high strength properties and practically does not affect elasticity. It is ideal for reinforcing areas with an increased presence of mechanical stress.


Impact resistant polyurethane combines mechanical resistance, flexibility and low temperature resistance, making it ideal for creating an external protective rim for the core.


Ultra high molecular weight running base, has high strength and speed performance. It absorbs wax well, making the surface hydrophobic, which in turn creates less friction and allows you to develop high speed in a short period of time.


Allows you to install fasteners with a disk base: classic or with a “mini-disk” for 4 bolts. High-strength stainless steel ensures wear resistance of the thread and prevents corrosion.


Edge is a protective rim that is located on the front line of interaction, ensuring the integrity of the entire product. It is made of alloy steel. It combines high strength and good resistance to corrosion, which provides resistance to mechanical stress and temperature extremes and high humidity.


It is an intermediate link between the edge and the upstream elements. Designed to dampen vibration and prevent structural distruction from the inside.


We pay special attention to the aesthetic appearance of our products, because in the first place we perceive the world through our eyes.

We believe that each board is unique in its own way and therefore all of our graphics are initially born with oil on canvas.

Decorative veneer. We use natural wood to decorate our products, creating a unique pattern of wood fibers on each snowboard.

Sublimation and silk screening technologies allow us to convey the brightness of colors as realistically as possible.