The method of manufacturing kinesio brace includes steps of: preparing an elastic body which is tube-shaped to have a first face inside and a second face outside, the elastic body defining an axial direction; inserting an inner mold into the elastic body so that the first face faces to the inner mold; placing the inner mold with the elastic body into an outer mold and closing the outer mold, the outer mold being formed with at least one groove on an inner surface thereof; injecting a plastic material into the groove to shape into a plastic layer which is engaged with the second face of the elastic body; removing the outer mold and the inner mold from the elastic body to provide a kinesio brace.

The invention relates to a process for the production of finished parts made of at least one multilayer, fiber-reinforced, flat semifinished-product structure, comprising the following steps: a) heating of the at least one multilayer, fiber-reinforced, flat semifinished-product structure at ambient pressure to a first temperature T.sub.a, where the at least one multilayer, fiber-reinforced, flat semifinished-product structure comprises at least two mutually superposed polymer layers and the individual polymer layers respectively have fiber-reinforcement and do not have coherent bonding to one another or have only partial coherent bonding to one another, and in the event that at least one of the polymer layers comprises a semicrystalline polymer the first temperature T.sub.a is higher than a melting point T.sub.m of the crystalline polymer in accordance with DIN EN ISO 11357-3:2013-04, and in the event that the at least two polymer layers comprise no semicrystalline polymer the first temperature T.sub.a is higher than a glass transition temperature T.sub.g in accordance with DIN EN ISO 11357-2:2013-09 of a polymer comprised in at least one of the at least two polymer layers, b) pressing of the heated at least one multilayer, fiber-reinforced, flat semifinished-product structure to give a finished part at a second temperature T.sub.b and at a pressure p.sub.b of at least 3 bar.

The invention relates to a vinyl functionalized urethane resin (VFUR) useful as a curing agent in thermosetting powder coating compositions, a process for making said vinyl functionalized urethane resin, a vinyl functionalized urethane resin composition (VFURC) useful as a curing agent in thermosetting powder coating compositions, a process for making vinyl functionalized urethane resin composition, a thermosetting powder coating composition (TPCC), a process for the preparation thereof, a cured thermosetting powder coating composition, processes for coating an article with said thermosetting powder coating composition and an article coated with said thermosetting powder coating composition as well as uses of the vinyl functionalized urethane resin or of the vinyl functionalized urethane resin composition or of the thermosetting powder coating composition or of the articles having coated and cured thereon said thermosetting powder coating composition. The invention relates also to thermosetting powder coating composition useful for powder-in-mold coating articles such as reinforced polymeric e.g. polyester resin articles and to powder-in-mold coating methods employing the thermosetting powder coating composition and use of the in-mold coated article.

A contact lens comprises a transparent pupil region and an iris region surrounding the pupil region. The iris region comprises a colored pattern portion. A plurality of pigments are dispersed in the colored pattern portion. The disclosure also provides a method for making a contact lens.

A method of producing a brush for the cleaning of electronic components. In this method, a plastic core is prepared and submerged into a solvent to melt the outer surface of the core. While the outer surface of the plastic core is still partially melted, it is rolled through a trough of powdered polyvinyl alcohol (PVA) such that granules of PVA melt into and subsequently become embedded at the outer surface. As the solvent evaporates, the outer surface of the core re-hardens and the granules of PVA become firmly entrapped at the outer surface. The PVA covered shaft is placed in a mold, which is then filled with a PVA solution. As the solution cures, it forms a strong bond with the PVA granules that are embedded at the surface of the plastic core. Thereafter, the mold components are disassembled, leaving behind the finished cored brush.

An imprint apparatus forms a pattern of an imprint material in a shot area of the substrate using the mold, and includes a heating mechanism that changes a shape of the substrate by irradiating the shot area of the substrate with light, wherein the heating mechanism includes a plurality of optical modulators that forms an illuminance distribution in the shot area of the substrate, and light beams from the plurality of optical modulators illuminate mutually different areas of the shot area.

A display apparatus includes a display module having a display surface configured to display an image, and a window member disposed on the display surface. The window member includes a flexible base layer having a plurality of concave patterns defined on an upper portion thereof, and a plurality of hard coating patterns each disposed in a respective one of the concave patterns and having a hardness greater than the hardness of the flexible base layer.

Embodiments herein provide a method of applying a protective coating to a haul truck tray. The method includes (i) installing a mould on at least a portion of the haul truck tray, (ii) placing the at least a portion of the haul truck tray into a jig framework, (iii) heating at least a portion of the haul truck tray placed on the jig framework, (iv) providing a source of fluid protective coating at an elevated point on the at least a portion of the haul truck tray placed on the jig framework, (v) coating at least a portion of the haul truck tray surface with a substantially uniform layer of fluid protective coating, and (vi) allowing the substantially uniform layer of fluid protective coating to cure.

A laminated gasket (13) to be used for a medical syringe is provided, which includes a main body (14) made of an elastic material, and a film (15) provided on a surface of the main body (14). The gasket (13) has a circumferential surface portion (17) to be brought into contact with an inner peripheral surface (16) of a syringe barrel (11) of the syringe. The gasket (13) further includes a projection (22) provided on a surface portion of the film (15) present in the circumferential surface portion (17) as extending circumferentially of the gasket. The projection (22) has a height of not less than 15 m and not greater than 55 m and a width of not less than 30 m and not greater than 75 m. With this arrangement, the laminated gasket is excellent in sealability.

The object of the present invention is to provide an image formation method that can give an image that is excellent in terms of adhesion to a substrate, blocking resistance of a resulting printed material, and molding suitability, in particular vacuum forming properties, and that can suppress post-molding cracking of a molding. Disclosed is an image formation method comprising, in order, Step a: a step of applying Liquid A to a substrate, Step b: a step of irradiating the applied Liquid A with actinic radiation so as to carry out complete curing or semi-curing up to a degree of cure of at least 90%, Step c: a step of applying Liquid B to a cured layer of the completely cured or semi-cured Liquid A, and Step d: a step of completely curing Liquid A and Liquid B.