A method is provided for manufacturing panels with a substrate and a decorative top layer that may include a printed motif and a transparent or translucent protective layer formed there above. The method may involve applying a first and a second finishing layer for forming a first and a second portion of the protective layer. Recesses may be formed at the surface of the second finishing layer. Hard particles may be provided in the first finishing layer.

A trim for an object and its method of manufacture involve providing a transparent or translucent substrate defining a top surface, applying an opaque layer above the top surface of the substrate, the opaque layer defining one or more apertures through which light can pass, and applying one or more translucent metallic-looking layers above a top surface of the opaque layer. In some implementations, the trim is a selectively illuminable trim whereby a light source is arranged beneath a bottom surface of the substrate, the light source being configured to output light through the substrate, the one or more apertures defined by the opaque layer, and the one or more metallic-looking layers.

A method for decorating a translucent container including cleaning an exterior surface of the container and applying a silver layer to the exterior surface followed by a black layer applied over the silver layer. Portions of the silver and black layers are selectively removed to form one or more shapes using a laser. A translucent protective layer is applied over the entire exterior of the container.

A method of producing a patterned composite metal plate includes a) providing at least two different metal and/or metal alloy powders, b) filling a container, b1) with the powders in different individual layers, or b2) making a three dimensional non-solid body of one of the powders, inserting said body in the container and filling the cavities in and around the said body completely with the other powder, c) sealing and evacuating the container, d) subjecting the container to hot isostatic pressing, e) optionally subjecting the consolidated body to hot deformation to form an intermediate body having a thickness of 50 to 200 mm, f) hot rolling the intermediate body in two perpendicular directions in order to form a plate, and optionally one or more of g) cold rolling the hot rolled plate to form a cold rolled plate h) slitting the plate and i) etching the plate.

Embodiments enhance graphic capabilities in projected-capacitive (PCAP) touch sensitive systems, and more specifically to a border component of a PCAP touchscreen. Embodiments include a method and an apparatus for a PCAP touchscreen layered structure. Some embodiments include screen printing a border component on a cover sheet, curing the border component, ablating a pattern on the border component, and screen printing one colored ink onto the pattern on the border component. In some embodiments the border layer is black, and the colored ink is coupled to a cover sheet. The pattern causes the colored ink to appear as a continuous gradient of the colored ink. In some embodiments the border component includes two or more border-layer components. At least one of the border-layer components may include an ablated pattern. Each ablated pattern may be coupled to a different colored ink.

A method for decorating a translucent container including cleaning an exterior surface of the container and applying a silver layer to the exterior surface followed by a black layer applied over the silver layer. Portions of the silver and black layers are selectively removed to form one or more shapes using a laser. A translucent protective layer is applied over the entire exterior of the container.

A metallized plastic component includes a base body of at least one light-permeable plastic to which a metal layer is applied into which at least one illuminatable structure is introduced. The at least one illuminatable structure is formed by an area in the metal layer in which a plurality of light-permeable openings is arranged in a dot matrix.

A floor panel has two pairs of opposite edges so at least at one pair of opposite edges the floor panel is provided with coupling parts formed in one piece with a substrate of the floor panel. A relief is provided at least with a plurality of embossments in a synthetic transparent material of a top layer of the floor panel. The embossments are performed deeper than the synthetic transparent material, and the printed decor and an underlying layer of the substrate are embossed. The underside of the substrate is undeformed.

A decorative radome including a radio-transmissive substrate having a first surface on a first side and a second surface on a second side; and a first surface radio-transmissive decorative coating; methods of manufacturing a PVD coated system include applying a hard coating to the substrate; applying a PVD coating by magnetron sputtering to the substrate; and laser etching one or more of a pattern or a graphic into the PVD coating; and A decorative PVD coated item, comprising: a substrate; a hard coating applied to the substrate; a PVD coating provided on the hard coating and the substrate, wherein the PVD coating is laser etched with one or more of a pattern or a graphic so that the PVD coating is at least partially removed and the pattern or the graphic is revealed as a result of the contrast between the substrate and the PVD coating.

Described herein a heat transfer label comprising a support portion comprising a release layer having a first side and a second side and a first carrier at least partially disposed on the first side of the release layer; and a transfer portion comprising a engravable first ink layer having a first side and a second side; and an adhesive layer having a first side and a second side, wherein a graphic design is engraved on the first ink layer using the laser light after the heat transfer label is at least partially bonded onto a substrate. Also described herein are methods of laser engraving a heat transfer label comprising at least partially bonding the heat transfer label described herein onto a substrate; and at least partially laser engraving the ink layer.