A process for manufacturing a hollow body including a thermoplastic wall and a fibrous reinforcement welded on at least one portion of the surface of the wall, or its outer surface, the fibrous reinforcement including a thermoplastic similar to or compatible with that of the wall of the hollow body, having a thickness of at least 1 mm and from 30 to 60% in weight of fibers, the method including heating a portion of the outer surface of the hollow body where the reinforcement will be welded; heating the fibrous reinforcement to soften or melt the thermoplastic of the reinforcement; and moving the reinforcement and applying the reinforcement to the portion of the outer surface of the hollow body. The applying the reinforcement includes: applying an initial pressure on at least one portion of the reinforcement; and applying pressure for a final welding using robotized pressure applying mechanism.

A decorative article includes a base and a decorative portion. The base includes a grained surface formed in a grained manner. The decorative portion includes at least a protective layer, a metal layer, and an adhesive layer. The decorative portion is bonded to at least a part of the grained surface of the base by the adhesive layer.

A process for the formation of an assembly comprising a structured or compacted porous film (c) comprising a) application of a porous film (d) onto an elastic substrate (a) in a stretched state such that a reversible adhesion of the film on the stretched substrate (a) occurs, and b) relaxing the substrate (a) with the applied film thereon to obtain a structured or compacted porous film (c), c) applying a support material (e) to a part of the structured or compacted film (c) so that the structured or compacted film to which no support material (e) is attached is releasable.

The invention relates to flexible PCM sheet materials having a high latent thermal energy storage density for the purpose of heat management. The flexible PCM sheet material includes a flexible supporting structure and phase-change-material elements arranged thereon separately in a specific geometry. The phase-change-material elements are geometrically defined structures composed of polymer-bound phase-change material. The flexible PCM sheet materials are characterized by a high latent heat storage capacity and optimized thermal conductivity, are dimensionally stable even in the event of temperature changes and after phase transitions, can be rolled, folded, wound, or cut to size without problems, and can be transported, stored, processed, or used in a single layer or in multiple layers.

Provided are an adhesive sheet including a base layer, an adhesive layer, and a release paper, which are sequentially disposed, the adhesive layer being attached to a target for attachment after the release paper is removed, wherein the adhesive layer includes a first adhesive layer, which is attached to one surface of the base layer, and second adhesive layers attached to the first adhesive layer and to the release paper, the second adhesive layers being arranged so as to form a pattern, wherein the second adhesive layers remain attached to the target for attachment, wherein a film is attached to the target for attachment without requiring the film to be wet with water, and wherein an air layer or air bubbles are discharged from the adhesive sheet through paths that serve to discharge the air bubbles, thereby preventing a reduction of initial adhesive force, solving a problem of freezing, and achieving easy attachment, and a method of manufacturing the same.

A process for the formation of an assembly comprising a structured or compacted porous film (c) comprising a) application of a porous film (d) onto an elastic substrate (a) in a stretched state such that a reversible adhesion of the film on the stretched substrate (a) occurs, and b) relaxing the substrate (a) with the applied film thereon to obtain a structured or compacted porous film (c), c) applying a support material (e) to a part of the structured or compacted film (c) so that the structured or compacted film to which no support material (e) is attached is releasable.

An amorphous structure layer is formed on a surface layer of a bonded portion of each of side brackets. A bottomed hole layer including a plurality of bottomed holes is formed on a surface layer of the amorphous structure layer. Each of the bottomed holes has a reverse-tapered shape, which has, between an opening portion and a bottom portion of each of the bottomed holes, a bulged portion having a larger inner circumference than the opening portion. An adhesive is injected into the bottomed holes. An outer circumferential surface of the bonded portion of each of the side brackets and an inner circumferential surface of an end portion of a center beam face toward each other with the adhesive interposed therebetween.

Provided are an adhesive sheet including a base layer, an adhesive layer, and a release paper, which are sequentially disposed, the adhesive layer being attached to a target for attachment after the release paper is removed, wherein the adhesive layer includes a first adhesive layer, which is attached to one surface of the base layer, and second adhesive layers attached to the first adhesive layer and to the release paper, the second adhesive layers being arranged so as to form a pattern, wherein the second adhesive layers remain attached to the target for attachment, wherein a film is attached to the target for attachment without requiring the film to be wet with water, and wherein an air layer or air bubbles are discharged from the adhesive sheet through paths that serve to discharge the air bubbles, thereby preventing a reduction of initial adhesive force, solving a problem of freezing, and achieving easy attachment, and a method of manufacturing the same.

A display device which includes an electronic paper display additionally comprises power harvesting hardware and display update hardware which is configured to control the updating of the electronic paper display based on a sensed power harvesting level which may, in various embodiments, be a current incoming power level as generated by the power harvesting hardware or a stored power level in a power storage device within the display device.

A method of manufacturing an aircraft component, the component comprising a pair of covers joined by a pair of spars. The covers and spars form a closed box structure with four corners, each corner providing a transition between one of the covers and one of the spars. The method comprises: laying up a laminated sheet of fiber plies; and after the sheet has been laid up, folding the sheet to form the four corners and then joining the sheet to itself to provide the closed box structure.