A method for filling a through slit in a metal layer for use in a metallic smartcard by providing a metal sheet having at least one through slit extending through the thickness of the metal sheet, applying a polymer resin to the metal sheet so as to substantially fill the slit(s), and curing the resin. A coupling frame for a smartcard, and a smartcard are also provided.

A display device includes: a window including a bending area and a non-bending area; an adhesive layer including a first adhesive portion and a second adhesive portion, wherein the first adhesive portion overlaps the bending area, and the second adhesive portion overlaps the non-bending area; and a display module disposed on the adhesive layer, wherein the first adhesive portion is formed by curing a first resin including a first photoinitiator configured to have an initiation reaction induced by a first light, and the second adhesive portion is formed by curing a second resin including a second photoinitiator configured to have an initiation reaction induced by a second light or a thermal initiator, wherein the second light has a different central wavelength front that of the first light.

A method and an apparatus for producing a relief-pattern forming, the method and apparatus being suitable for producing a film-like material, such as an embossed film, having a fine relief-structure pattern formed on a surface thereof so as to have a distinctive optical effect with higher quality, good productivity, and fewer defects. A transfer pattern printed layer having an inverted structure of a relief-structure pattern is formed on a second substrate by printing a transfer pattern onto the surface of a first substrate on which the relief-structure pattern is formed at a predetermined position by registration with the relief-structure pattern followed by drying, laminating with the second substrate, curing and peeling.

Disclosed are an adhesive composition that includes: a first photopolymerization initiator having a maximum absorption wavelength in a range of about 350 nm to about 370 nm and a second photopolymerization initiator having a maximum absorption wavelength in a range of about 380 nm to about 390 nm, and a method of manufacturing a display device.

In some examples, an assembly includes a plastic layer to cover a surface of a display panel, a rigid carrier to support the plastic layer, and a removable fastener to attach the plastic layer to the rigid carrier, the removable fastener to release the rigid carrier from the plastic layer.

An autoclave includes a case, a chamber disposed inside the case, a cassette disposed inside the chamber, and a plurality of light sources mounted inside the cassette.

A panel may include a substrate and a top layer provided on the substrate. The top layer may include a printed motif provided on a paper sheet and a transparent or translucent synthetic material layer. The paper sheet may be impregnated with polyurethane or polyisocyanate. The synthetic material of the transparent or translucent synthetic material layer may be polyurethane.

A multi-layered composite body, having an UV-cured cover layer (1) forming the surface and having a layer thickness of 1-20 μm, which has the following characteristics: a) a gloss loss of at most 30%, preferably at most 20% following a micro-scratch resistance test measured following prEN 16094 (as of 2010 May 15: “Laminate floor coverings—Test method for the determination of micro-scratch resistance”), b) a numerical assessment of ≥3, in a chemical resistance test measured according to DIN EN 12720 (as of July 2009: “Furniture—Assessment of surface resistance to cold liquids”) using acetone as a test liquid for a test duration of 1 h, c) a gloss of at least 80, preferably at least 85 GLE measured according to ISO 2813 (as of 1999 Jun. 1: “Coating materials—Determination of the reflectometer value of coatings at 20°, 600 and 85°”) at an observation angle of 20° and d) a haze of at most 20, preferably at most 15, measured according to ISO 13803 (as of 2004 Sep. 1: “Coating materials—Determination of reflection haze of coatings at 20°); a bending device for the composite body

The present disclosure is generally directed to a primer saturated carrier medium assembly including a carrier medium having a front face and an opposing rear face, a primer saturating the carrier medium between the front face and the opposing rear face, and removable film impenetrable to the primer covering opposite faces of the carrier medium. A method of applying primer to a surface includes applying a face of a primer saturated carrier medium to contact a surface, and curing the primer saturated carrier medium on the surface. A structure includes a primer saturated medium including a carrier medium having a front face and an opposing rear face, and a primer saturating the carrier medium between the front face and the opposing rear face. The structure further includes a surface adhered to the primer on one face of the primer saturated medium.

A compressible seal (400A) includes a compressible body (406) having a first surface (410) and a second surface. A pattern of discontinuous adhesive regions (412) is formed of an adhesive connected with at least one of the first surface (410) or the second surface of the compressible body (406). The compressible body (406) is operable to conform around the pattern of adhesive regions (412) to prevent fluid ingress when the compressible body (406) is compressed.