Software and lasers are used in finishing apparel to produce a desired wear pattern or other design. A technique includes determining a fabric's response to a laser, capturing an initial image of a wear pattern on a garment, and processing the initial image to obtain a working image in grayscale. The working image is further processed to obtain a difference image by comparing each pixel relative to a dark reference. The difference image is converted to a laser values image by using the previously determined fabric response to the laser.

A coated panel may include at least a substrate and a top layer with a printed motif. The top layer may be provided on the substrate. The top layer may also include a transparent or translucent synthetic material layer, which is provided above the printed motif. The top layer and preferably at least the transparent or translucent synthetic material layer may include a foamable or foamed synthetic material.

A coated panel may include at least a substrate and a top layer with a printed motif. The top layer may be provided on the substrate. The top layer may also include a transparent or translucent synthetic material layer, which is provided above the printed motif. The top layer and preferably at least the transparent or translucent synthetic material layer may include a foamable or foamed synthetic material.

A greeting card having a housing of metal or a metal alloy that defines an interior void and an electronic ink display screen, a Bluetooth adapter or dongle comprising Bluetooth low energy (BLE) technology within the interior void and operatively configured to communicate with the display screen, a non-transitory memory storage device, and another electronic component within the interior void. The Bluetooth adapter or dongle is configured to receive from an external electronic device a first communication of information describing an initial message to be displayed, and to receive, subsequent in time to receipt of the initial message, a second real time communication of information describing a second message. The non-transitory memory storage device has pre-loaded executable instructions to display the first communication on the display screen, to change or modify the initial message based on the second real-time communication, and to display the second message on the display screen.

A structure that forms a visual representation may include a first outer layer, a second outer layer, and an interlayer being disposed between the first outer layer and the second outer layer. The interlayer may have a first side adjacent to the first outer layer and a second side adjacent to the second outer layer. The interlayer includes a plurality of cuts extending from the first side of the interlayer towards the second side of the interlayer. Each of the plurality of cuts may have an angle with respect to a plane formed by a surface of the first side of the interlayer. Each angle for at least a portion of the plurality of cuts is based on one or more pixel values of at least one image that forms the basis of the visual representation.

A method of producing customized artwork includes forming and finishing a plurality of backdrops by cutting and/or engraving sheet metal. Based upon an order received for a customized artwork a particular backdrop is selected and a customized ornamental component is produced in sheet metal. If the backdrop and customized component are prone to galvanic corrosion, insulation may be provided between the customized component and backdrop and to insulate fasteners from either the customized component or backdrop. The method reduces lead times and production costs for customized artwork, while improving quality of the final product.

A method for manufacturing a horology component comprising a surface that is to be treated, this surface being prepared beforehand through a substep of polishing and/or through a substep of adding a malleable upper layer (2), wherein said method comprise: a first surface structuring (E10) of said surface that is to be treated of the horology component, followed by a second surface structuring (E20) of said surface that is to be treated, structured by the previous first surface structuring step (E10).

A method for manufacturing a structure on a surface of a workpiece (1) is disclosed, the method having the following steps: applying a liquid base layer (2) onto the surface of the workpiece (1); spraying on at least one droplet (3) into the not yet congealed base layer (2), wherein the at least one droplet (3) at least partially, preferably completely, penetrates into the base layer (2); fixing the base layer (2); and at least partially removing the at least one droplet (3).

Further, a second method having the following steps is disclosed: spraying on at least one droplet (3) onto the surface of the workpiece (1); applying a liquid base layer (2) onto the surface of the workpiece (1), wherein the base layer (2) flows around the at least one droplet (3) and preferably at least partially covers the at least one droplet (3); fixing the base layer (2); at least partially removing the at least one droplet (3).

Finally, a device for performing the methods is disclosed.

Boldface printing having a sufficient line width is more easily implemented as compared with the related art. A laser marking apparatus includes a laser light output section, a laser light scanning section, a storage section, and a marking control section. The marking control section scans UV laser light along an outer scanning line farther from a center line of a line element of a character corresponding to print data for boldface than an inner scanning line prior to the inner scanning line closer to the center line for scanning lines adjacent to each other in a direction in which the line element of the character becomes thick among a plurality of the scanning lines forming the print data for boldface.

The method for treatment of parts, characterized in that it comprises the stages of applying an electrolytic chromium plating layer on a part; applying a coating over the entire outer surface of the part; selective stripping of the coating in order to leave the part with at least one coated portion and at least one uncoated portion; carrying out a selective etching on the layer in at least one part of the uncoated portion; metallization of the entire surface of the part; and removal of the coating.