A panel for a touch screen of an electronic device is described. The panel comprises a substrate having a central area for operating the touch screen and a border area at an edge of the central area. The border area comprises a decorative image on the substrate and an outer surface coating overlying the decorative image. The decorative image comprises a non-conductive metallic coating. The outer surface coating comprises a non-conductive, printed layer. A method for manufacturing the panel and an electronic device comprising a touch screen having the panel are also described.

A floor panel with a substrate and a decoration provided thereon. The substrate includes at least a foamed layer of thermoplastic material and at least a reinforcement layer. Additionally, a method for manufacturing such floor panels with a substrate and a decoration, where the substrate includes at least a foamed layer of thermoplastic material and at least a reinforcement layer.

Embodiments of an image panel are provided. The image panel includes a transparent substrate having a first major surface and a second major surface opposite the first major surface. A first image layer is disposed on the second major surface. A diffuser layer is disposed on the first image layer, and a second image layer is disposed on the diffuser layer. The second image layer includes mask regions and image regions. An optical density of the image panel is at least 3.0 in the mask regions and less than 3.0 in the image regions. The image regions are not visible from the first major surface when light is not incident upon the second major surface. The image regions are visible from the first major surface and form a composite image with the first image layer when light is incident upon the second major surface.

A floor panel with a substrate, including thermoplastic material, a decor provided thereon, and, on at least one pair of opposite edges, coupling parts realized at least partially from the substrate. The coupling parts allow a mechanical locking between two of such floor panels, where the substrate includes a rigid, non-foamed substrate layer of thermoplastic material.

A floor panel with a substrate and a decoration provided thereon. The substrate includes at least a foamed layer of thermoplastic material and at least a reinforcement layer. Additionally, a method for manufacturing such floor panels with a substrate and a decoration, where the substrate includes at least a foamed layer of thermoplastic material and at least a reinforcement layer.

Floor panel with a substrate, including thermoplastic material, a decor provided thereon, and, on at least one pair of opposite edges, coupling parts realized at least partially from the substrate. The coupling parts allow to effect a mechanical locking between two of floor panels, where the substrate includes a rigid substrate layer of thermoplastic material, and a glass fiber layer is present in the floor panel.

Provided are a decorative glass panel having a three-dimensional metal design and a manufacturing method for the decorative glass panel, the method exhibiting enhanced productivity. A decorative glass panel 10 includes: a glass substrate 15; an adhesive layer 11 formed on the glass substrate 15; a non-uniform pattern layer 12 formed on the adhesive layer 11; and a vapor-deposited metal layer 13 formed on the non-uniform pattern layer 12. In the glass substrate 15, a section that is a portion of a back surface of the glass substrate 15 and that is bent from a flat surface section 30 to an upright section 31 forms a curved surface 32. The non-uniform pattern layer 12 has, in a surface facing the vapor-deposited metal layer 13, which is a top surface thereof, a non-uniform pattern formed by depressions 40 and protrusions 41.

Disclosed are a glass embedded product and a method for fabricating same. The glass embedded product comprises a base, the base having a cavity, several hollowed holes being formed through a side wall of the cavity, and the hollowed holes communicate with the cavity. The glass embedded product further comprises a glass blown decorative structure embedded in the base, the glass blown decorative structure comprising a glass blown lining sheathed in the cavity of the base and glass protruding decorative parts embedded in the hollowed holes of the base. The glass protruding decorative parts and the glass blown lining form an integrated blow-moulded integral structure.

Tableware or furniture item (1) comprising a top part and a leg (4), produced in at least two parts:the top part comprising a parison (2) or a support for another object and at least one annular stud (22) turned downwards, having at least one frustoconical outer surface (24) forming a buckling prevention member and provided with at least one lateral bulge (25) set apart from the base of the stud, andthe leg comprising an inner member (5) provided with a female link turned upwards to cooperate with the stud (22) of the top part, and comprising a plurality of concentric angular sectors (12) separated by slots (13), making said female link clamp the corresponding stud in the assembled position, and providing it with elasticity allowing it to pass over the lateral bulge during assembly, and an outer skirt (6).

A vehicle frame assembly is provided. The vehicle frame assembly includes an outer cover panel formed from a thin, thermally strengthened glass material. The thermally strengthened glass material has high levels of surface compressive stress providing sufficient strength and durability for a vehicle frame cover application. The thermally strengthened glass is also thin (e.g., less than 2 mm) providing a lightweight frame material that is suitable for cold-bending to a curvature needed for the vehicle body shape and/or to match the curvature of the vehicle frame.