Flying disc toys are personalized with dye-sublimation printing using a heat press and dye-sublimation paper, onto which a design is printed. An assembled flying disc toy is disposed between a pad and a mask, in the heat press. The mask protects the ring of the flying disc toy from melting. The pad urges the fabric cover of the flying disc toy towards the paper and helps prevent crushing of the ring during pressing and the high-definition dye transfer sublimation printing.

Decorated sheets on the basis of cellulose non-woven fabrics, such as paper, for the production of decorated laminates are impregnated with synthetic resins. Consequently, their sizes are changed, they become brittle and are not water-resistant in the laminate. In the method according to the invention the printed or unprinted non-woven fabrics are impregnated with an aqueous dispersion of a polymer which is cross-linkable by UV radiation, dried and optionally printed and finally irradiated with UV radiation. The decorated sheets thus obtained are water-resistant in the laminate and can be coiled up and stored after each process step.

Decorated sheets on the basis of cellulose non-woven fabrics, such as paper, for the production of decorated laminates are impregnated with synthetic resins. Consequently, their sizes are changed, they become brittle and are not water-resistant in the laminate. In the method according to the invention the printed or unprinted non-woven fabrics are impregnated with an aqueous dispersion of a polymer which is cross-linkable by UV radiation, dried and optionally printed and finally irradiated with UV radiation. The decorated sheets thus obtained are water-resistant in the laminate and can be coiled up and stored after each process step.

The present invention provides a substrate having a unidirectional water transport property, the substrate comprised of a fluid permeable structure and including: an inner side surface; and an outer side surface having a higher absorbent capacity than the inner side surface, wherein the inner side surface has a hydrophobic surface layer extending continuously over at least one section thereof, the hydrophobic surface layer having a predetermined thickness which, in use, produces a substantial hydrophobic property to contacting water, whilst allowing for water contacting the inner side surface of the substrate to wick through the hydrophobic surface layer into the substrate; and wherein the substrate is respectively comprised of hydrophobic channels and hydrophilic channels which respectively extend between the inner side surface and the outer side surface.

To achieve reduction in cost and improvement in productivity, to provide a covered roller at which the covering is adequately secured, and to provide a lifespan detection means therefor, a rotating body covered with a covering has a region at which an insertion member is inserted inside the rotating body such that the covering intervenes therebetween, a length of the covering is made to be greater than a width in a width (axial) direction of the rotating body that is covered with the covering, the covering being made to protrude beyond the rotating body, heat-shrinking in the radial direction of the covering due to application of heat, or contraction of the covering where the rotating body is covered with a covering that has stretchability in at least the radial direction and that has been made to be longer than the width of the rotating body that is covered with the covering so as to protrude beyond the rotating body, causing an inside circumferential length of an end portion of the covering in the region which has been made to protrude from the rotating body to be less than or equal to an inside circumferential length of an inside diameter of the rotating body, the protruding portion of the covering being folded back inside the rotating body, the insertion member being inserted inside the rotating body under at least press-fit conditions such that the covering intervenes therebetween, the covering being held to the rotating body surface, the roller which is employed being such that at least the rotating body, the covering, and the insertion member are made integral.

The present invention provides a substrate having a unidirectional water transport property, the substrate comprised of a fluid permeable structure and including: an inner side surface; and an outer side surface having a higher absorbent capacity than the inner side surface, wherein the inner side surface has a hydrophobic surface layer extending continuously over at least one section thereof, the hydrophobic surface layer having a predetermined thickness which, in use, produces a substantial hydrophobic property to contacting water, whilst allowing for water contacting the inner side surface of the substrate to wick through the hydrophobic surface layer into the substrate; and wherein the substrate is respectively comprised of hydrophobic channels and hydrophilic channels which respectively extend between the inner side surface and the outer side surface.

To provide a cleaning blade having an elastic body portion containing urethane rubber and a support member supporting the elastic body portion. A free end portion of the elastic body has a first region in which the Young's modulus gradually decreases in the depth direction from the principal surface facing the surface of the member to be cleaned on the edge face side and a second region in which the Young's modulus does not vary in the depth direction from the principal surface on the side closer to the support member relative to the first region.

To provide a cleaning blade having an elastic body portion containing urethane rubber and a support member supporting the elastic body portion. A free end portion of the elastic body has a first region in which the Young's modulus gradually decreases in the depth direction from the principal surface facing the surface of the member to be cleaned on the edge face side and a second region in which the Young's modulus does not vary in the depth direction from the principal surface on the side closer to the support member relative to the first region.