Techniques or processes for providing markings on fabric articles are disclosed. In one embodiment, the articles may be fabric carrying cases for electronic devices. For example, a fabric carrying case for a particular electronic may include a fabric base layer and a plurality of thick films coupled to the fabric base layer, wherein the plurality of thick films may comprise a top thick film and an underlying thick film. Regions of the top thick film may be selectively etched through, for selectively exposing the underlying thick film. The selectively etched regions may be arranged for marking of textual or graphical indicia on the fabric carrying case for the portable electronic device.

A method for surface decoration of articles comprises the following steps A), B) and C). Step A) comprises applying a base layer to the surface of a main body. The base layer comprises at least one photoluminescent additive. Step B) comprises applying on the base layer a metallization layer configured to make at least partially visible the photoluminescence of said base layer. In particular, step B) comprises a process of deposition of metal particles on the base layer. Step C) comprises applying a transparent coating layer on the base and metallization layers. The above-mentioned method allows to obtain an article with a metallic surface finishing having a luminescence effect which can be perceived especially in low light conditions or under the effect of ultraviolet light.

A transfer method for expanding pitches of devices includes: providing a first substrate with micro devices having the pitches being a predetermined value in a first direction and a second direction; transferring the micro devices to a first roller by contacting it with the micro devices, wherein a pitch of contact line portions on the first roller is N times of the predetermined value; transferring the micro devices on the first roller to a second substrate; rotating the second substrate by 90 degrees; transferring the micro devices to a second roller by rolling the second roller to contact the micro devices; and then transferring the micro devices to a third substrate to expand the pitch of the micro devices in both the first and the second directions. The portions in contact with the micro devices all have adhesive layers with different adhesion operation windows.

A decorative panel has a first layer, a second layer, and a third layer. The first layer may be transparent, the second layer is fully or partially reflective, and the third layer is partially reflective or transparent. A cavity having an opening in the shape of a design is formed within a portion of the second layer. The opening is configured to allow light to enter the decorative panel through the second layer. The light entering the decorative panel will be outputted by the third layer in a shape substantially similar to the design.

A decoration panel of the present invention includes an outer layer having a through hole formed thereon which is opened to a front surface to be decorated and a back surface on a side opposite to the front surface, and a decoration layer including an inlay pattern portion which is part of the decoration layer entering the inside of the through hole from the back surface side being curved and deformed, the decoration layer being arranged on the entire back surface of the outer layer and having an approximately uniform layer thickness.

A method for manufacturing a decorated-part comprises a first and second base coat-layer-forming process, a surface coat-layer-forming process and a laser-decorating process. In the first base coat-layer-forming process, the first base coat-layer colored in a highly light color at a lightness-level of 70 or more is formed on the surface of the resin base-material 12. In the second base coat-layer-forming process, the second base coat-layer 21C colored in a chromatic color is formed on the first base coat-layer. In the surface coat-layer-forming process, the surface coat-layer colored in a less-bright color at a lightness-level of 20 or less is formed on the second base coat-layer 21C. In the laser-decorating process, the first laser-processed groove penetrating the surface coat-layer and exposing partially the second base coat-layer is made by irradiating the infrared laser onto such surface coat-layer, thus providing a fine decoration onto the surface of said decorated-part.

A decorative film, a transfer film, the use of a transfer film, a method for producing a transfer film, a method for decorating a plastic molded article, and a plastic molded article. The decorative film, in particular for decorating a plastic molded article, here includes at least one first color varnish layer, at least one second color varnish layer and a transparent laser protective varnish layer, wherein the transparent laser protective varnish layer is arranged between the at least one first color varnish layer and the at least one second color varnish layer.

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 method for producing a plastic article including a) providing at least one film 10 having a carrier film and at least one decorative layer, b) forming, by means of lasers, at least one first area 21 and at least one second area 22 in the plane formed by the at least one film 10, wherein the at least one second area 22 has a higher transmittance than the at least first area 21, c) arranging at least one varnish layer 12 in the at least one second area 22 by means of digital printing, d) curing, the at least one film 10, and/or the at least one varnish layer 12, e) arranging the at least one film 10, on a substrate 11, f) obtaining a plastic article 1 comprising the at least one first area 21 and the at least one second area 22.

A floor panel has a rectangular shape and an upper surface. The floor panel includes a substrate and a top layer provided on the substrate. The top layer is made on the basis of synthetic material extending over a substantial part of the upper surface. The top layer includes a printed decor extending over a substantial part of the upper surface. The substrate has at least two opposite edges, with the edges being provided with coupling parts. The upper surface, at one or more edges, shows a sloping edge portion sloping down to the respective edge. The sloping edge portion, viewed according to a cross-section transverse to the respective edge, has a shape and/or angle varying in function of the longitudinal direction of the respective edge.