A method of manufacturing a snow sliding device includes forming a core by forming a core body including an outer surface including an upper surface, a lower surface, and a first thickness, and shaping the core body to include a second thickness; providing a plurality of elements, including a base with a sliding surface, and a top surface; incorporating in at least one of the core and the plurality of elements a first material, the first material exhibiting a shear rate-dependent shear resistance; and laminating the plurality of elements to the core.

Embodiments relate to a denticle scale array including a plurality of denticle scales arranged in pattern and configured to be incorporated onto a ski base, wherein the plurality of denticle scales includes at least a denticle scale including a glide contact area configured to contact terrain when the ski base is unweighted and moving forward, a kick contact area greater than the glide contact area and configured to contact the terrain when the ski base is weighted and not moving forward, at least a longitudinal profile comprising an S-curve, a curved trailing edge profile, and at least a longitudinal groove running parallel with the forward movement of the ski base.

Embodiments relate to a denticle scale array including a plurality of denticle scales arranged in pattern and configured to be incorporated onto a ski base, wherein the plurality of denticle scales includes at least a denticle scale including a glide contact area configured to contact terrain when the ski base is unweighted and moving forward, a kick contact area greater than the glide contact area and configured to contact the terrain when the ski base is weighted and not moving forward, at least a longitudinal profile comprising an S-curve, a curved trailing edge profile, and at least a longitudinal groove running parallel with the forward movement of the ski base.

A steering system for a snowboard includes two binding interface pods, one of which may be active and one of which may be passive. Rotation or tilting of a top plate of the active binding interface pod in response to rotation or tilting of the rider’s steering foot causes counter-rotation of a steering fin under the rider’s steering foot. The passive binding interface pod is responsive via a linkage between the active and passive binding interface pods to cause rotation of a steering fin under the rider’s non-steering foot. Coordinated counter-rotation of the steering fins causes the board to turn in the direction of rotation of the rider’s steering foot when the steering fins are unaligned. Optionally, both binding pods may be active in steering, i.e. enabling two footed steering.

Embodiments are directed to a support apparatus. The support apparatus might comprise a body configured to support an entity. The body might comprise a material that has a physical property. The support apparatus might further comprise a coupler system configured to couple electric current from a power source to the material. The material is arranged such that coupling an electric current to the material changes the physical property of the material. Embodiments are further directed to a method. The method might comprise forming one or more cavities in a support apparatus. The method might further comprise providing one or more couplers in electrical contact with each of the one or more channels. The method further comprises filling each of the one or more cavities with a fluid that has electrically changeable rigidity. Finally, the method might comprise connecting a power source to each of the one or more couplers.

Embodiments are directed to a support apparatus. The support apparatus might comprise a body configured to support an entity. The body might comprise a material that has a physical property. The support apparatus might further comprise a coupler system configured to couple electric current from a power source to the material. The material is arranged such that coupling an electric current to the material changes the physical property of the material. Embodiments are further directed to a method. The method might comprise forming one or more cavities in a support apparatus. The method might further comprise providing one or more couplers in electrical contact with each of the one or more channels. The method further comprises filling each of the one or more cavities with a fluid that has electrically changeable rigidity. Finally, the method might comprise connecting a power source to each of the one or more couplers.

This invention relates to a composition comprising a semisolid epoxy resin containing a curative dispersed therein. The curative has a particle size such that at least 90% of the particles have a size below 25 pm at ambient temperature of 21° C., wherein the composition further comprises a diluent containing a particulate filler. The composition is used as matrix in prepregs. The use of the diluent increases peel strength of the composition when brought into contact with metal or wood substrate.

A steering system for a snowboard includes two binding interface pods, one of which may be active and one of which may be passive. Rotation or tilting of a top plate of the active binding interface pod in response to rotation or tilting of the rider's steering foot causes counter-rotation of a steering fin under the rider's steering foot. The passive binding interface pod is responsive via a linkage between the active and passive binding interface pods to cause rotation of a steering fin under the rider's non-steering foot. Coordinated counter-rotation of the steering fins causes the board to turn in the direction of rotation of the rider's steering foot when the steering fins are unaligned. Optionally, both binding pods may be active in steering, i.e. enabling two footed steering.

Sliding board (1), whose internal structure has a core (2) edged with side ski edges (10), said core (2) separating two lower (3) and upper (4) reinforcing layers, in which core (2) includes at least additional component (20) made of material with greater flexibility than the remainder of the core, characterised in that said additional component is inserted into a slender hollow (21, 22) shaped to curve inside the core.

Ski or similar device for sliding on snow having a mounting plate (12) for a binding or for parts thereof, such as a binding plate and/or heel plate, which mounting plate is mounted on, especially bonded or welded to, the top face of the ski, wherein the mounting plate (12) is of foil-like form and is bondable or weldable onto the top face of the ski in such a manner that it effectively defines a structural unit therewith.