A jig device includes a coating coater configured to coat an outer surface of a workpiece supplied at a constant speed with a coating material; a cutter configured to cut the workpiece; and a taper configured to tape the outer surface of the workpiece.

A flexible display device and a manufacturing method thereof are provided. The flexible display device includes a flexible display panel, a composite support assembly, and a first adhesive layer. The composite support assembly is disposed between a first plane section and a second plane section of the flexible display panel. A surface of the first adhesive layer close to the composite support assembly is connected to the composite support assembly. The first adhesive layer is provided with a protrusion extending into the composite support assembly.

A resin film configured to hold a conductive metallic track against a panel. The resin film partially covers the conductive metallic track, such that the conductive metallic track has at least one region which does not have the resin film, so as to allow an electrical connection by contact. Thus, in the context of assembly on a panel, the metallic track incorporated between the panel and the resin film is protected, thus rendering this technical solution particularly robust. Furthermore, the resin film electrically insulates the metallic track from surrounding elements, and the regions which do not have resin film allow an electrical connection by contact.

A method for manufacturing a decorative element, includes a functional opening, for a motor vehicle, as well as a decorative element. A decoration blank that includes a visible side and an adhesive side, and an application material layer that includes an adhesive side, and a lamination side are provided. A composite made of the decoration blank and the application material layer is produced by the adhesive side of the decoration blank and the adhesive side of the application material layer being adhered to each other by an adhesive layer. The decoration blank is cut through along a functional opening contour by a cutting element of a cutting machine, and a waste piece is removed, forming the functional opening. The functional opening is filled with a filler material that reacts into a cured state. The opening is at least partially translucent, at least partially transparent, completely transparent, or light impermeable.

A method for the manufacturing of a decorative element, includes a functional opening, for a motor vehicle, as well as a decorative element. The method includes a decoration blank that includes a visible side and an adhesive side, and an application material layer that includes an adhesive side and a lamination side. The decoration blank is cut through along a functional opening contour by a cutting element of a cutting machine, and a waste piece is removed, forming the functional opening. The application material layer is applied onto the decoration blank by the adhesive side of the application material layer and the adhesive side of the decoration blank is adhered with each other by an adhesive layer. The functional opening is filled with a filler material that reacts into a cured state, wherein it is at least partially translucent, at least partially transparent, completely transparent, or light-impermeable.

A graphene-based thermally conductive film comprising a plurality of strips of a graphene film arranged so that graphene sheets of the graphene film are aligned in a direction perpendicular to the plane of the thermally conductive film, wherein the thermally conductive film comprises: a plurality of first area portions comprising strips of graphene film having a first rotational alignment in the plane of the thermally conductive film; and a plurality of second area portions comprising strips of graphene film having a second rotational alignment in the plane of the thermally conductive film, different from the first alignment.

A material is formed by dividing a fabric into pieces that are substantially parallelogon in shape, the fabric having multiple parallel fibres. The pieces are placed, for example, with a pick and place machine, adjacent to each other on a carrier veil with fibres of adjacent of the pieces in substantial alignment. The pieces are attached to the carrier veil to form the material, the material including the pieces and the carrier veil.

An embodiment of the present inventive concept provides a display device including: a mother substrate on which a plurality of display modules are located; and a mother film located on a rear surface of the mother substrate, wherein the mother film may include a first layer, and a second layer disposed between the first layer and the mother substrate, the second layer has a thickness of from about 40 m to about 60 m, and a thickness of the first layer may be greater than that of the second layer.

A transversely extensible continuous elastic laminates includes a continuous elastic tape sandwiched between two continuous webs, and at least one row of tabs extending transversely outside the two webs, wherein the tabs are made of a non-woven material and have respective micro-hook pads integrally formed in the non-woven material forming the tabs and completely surrounded by a portion of a flat surface of the respective tabs.

Techniques are directed to providing a carbon composite product. Such techniques involve providing a bias pattern fabric that extends from a starting side along a run direction, the bias pattern fabric including carbon fiber threads oriented diagonally relative to the run direction. Such techniques further involve impregnating the bias pattern fabric with resinous material to form a run of prepreg material. Such techniques further involve cutting the run of prepreg material lengthwise to the run direction to form multiple tapes.