A method for manufacturing a display device includes providing a preliminary display device including a display module, an optical layer disposed on a first surface of the display module, a first protective film disposed on the optical layer, a second protective film disposed on a second surface of the display module, a first adhesive layer disposed between the optical layer and the first protective film, and a second adhesive layer disposed between the second protective film and the display module, forming a mask layer on the first protective film by irradiating a first laser light on the first protective film along a first processing line, and cutting the preliminary display device at an outer periphery of the second processing line by irradiating a second laser light on the first protective film along a second processing line positioned at an outer periphery of the first processing line.

A nonwoven fabric comprises a first surface, a second surface, and a visually discernible pattern on at least one of the first and second surfaces. The visually discernible pattern has a regular, repeating pattern of three-dimensional features. Each of the three-dimensional features define a microzone comprising a first region and a second region. The first and second regions having a difference in values for an intensive property. The first surface has a TS7 value in the range of about 1 dB V.sup.2 rms to about 15 dB V.sup.2 rms. The second surface has a TS7 value in the range of about 1 dB V.sup.2 rms to about 15 dB V.sup.2 rms. A ratio of the TS7 value of the first surface to the TS7 value of the second surface is in the range of about 1 to about 3.

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 machine for making insulation may include two or more rotatory members configured to pull a precut insulation product at a first rate, wherein the precut insulation product comprises a first paper layer, a second paper layer, and a continuous paper core sheet, a first restraint and a second restraint spaced apart a predetermined distance to create a first space therebetween, and two or more second rotary members configured to feed a continuous paper sheet at a second rate into the first space such that the continuous paper sheet forms a plurality of flexible loops defining a plurality of air channels that extend in a direction that is substantially perpendicular with a machine direction. The first rate may be slower than the second rate.

A continuous manufacturing equipment of an elastic three-dimensional fabric and a continuous manufacturing method thereof are disclosed. The continuous manufacturing equipment includes: a film conveying device having a thermal melting film and a conveying mechanism; a cutting device used for cutting a plurality of cutting gaps on the thermal melting film; a first fabric laminating device adhering an outer fabric on one surface of the thermal melting film; and a second fabric laminating device adhering an elastic fabric on another surface of the thermal melting film in a manner of elastically stretching and then elastically recovering. As such, effects of automatic, continuous, and simple steps in manufacturing and having a high yield rate are provided.

A flexible packaging laminate is formed to have a built-in opening and reclose feature by forming the laminate as a two-part structure having an outer structure joined in face-to-face relation with an inner structure. Score lines are formed in both structures to enable an opening to be formed through the laminate by lifting an opening portion (e.g., a flap or the like) of the two structures out of the plane of the laminate. The score line through the outer structure defines a larger opening than the score line through the inner structure, such that a marginal region of the outer structure extends beyond the edge of the opening portion of the inner structure. A pressure-sensitive adhesive is used to re-adhere the marginal region to an underlying surface of the inner structure adjacent the opening through the laminate.

A sealing device can be used for at least one edge joint, which is formed between a floor, a wall, or a ceiling and an adjacent cladding of drywall having cladding. The sealing device contains a sealing profile with a base body for sealing the at least one edge joint on the cladding. The base body has a sealing web which forms a lateral contact surface for the cladding.

Provided are a magnetic field shield sheet for a wireless charger, a method of manufacturing the sheet, and a receiver for the wireless charger by using the sheet. The sheet includes at least one layer thin magnetic sheet made of an amorphous ribbon separated into a plurality of fine pieces; a protective film that is adhered on one surface of the thin magnetic sheet via a first adhesive layer provided on one side of the protective film; and a double-sided tape that is adhered on the other surface of the thin magnetic sheet via a second adhesive layer provided on one side of the double-sided adhesive tape, wherein gaps among the plurality of fine pieces are filled by some parts of the first and second adhesive layers, to thereby isolate the plurality of fine pieces.

A fiber-reinforced composite material including reinforcing fiber layers and a resin layer sandwiched therebetween, wherein conductive particles having a sphericity of 85% or more are disposed in the resin layer, and the fiber-reinforced composite material has a portion where upper and lower reinforcing fiber layers are connected by one conductive particle and has a portion where a conductive particle is sunk in a reinforcing fiber layer. Provided is a fiber-reinforced composite material having sufficient electrical conductivity in a thickness direction with a small addition amount of conductive particles.

A tool for patterning an overlay for placement about a projection structure extending from a mount surface may be temporarily positioned for patterning the overlay in situ. The tool may be configured for engagement with the projection structure, and include a cutting edge that is arranged into a pattern emulating a perimeter of the projection structure. Application of the overlay against the cutting edge of the tool cuts a relief portion from the overlay in situ to obtain an opening having a boundary that is shaped to closely accommodate the projection structure perimeter. The tool is then removed and the overlay applied against the mount surface in surrounding relationship to the projection structure extending from the mount surface.