A process for producing an identifiable hand tool includes a machining step which uses machining tools to produce a rough part of the hand tool; a setting identification step which forms a identification area with an identification groove on the surface of the rough part; a heat treatment step which proceeds a heat treatment to the rough part; a vibration step which vibrates the rough part; a surface treatment step which electroplates the rough part to form an electroplating layer on the surface of the rough part to form a hand tool with a base color identification layer, and a coloring step which uses a Charged Coupled Device to determine a depth of the identification groove and uses a coloring pen of a coloring machine to perform coloring processing to form an identification portion with a different color from the base color identification layer.

A process for producing an identifiable hand tool includes a machining step which uses machining tools to produce a rough part of the hand tool; a setting identification step which forms a identification area with an identification groove on the surface of the rough part; a heat treatment step which proceeds a heat treatment to the rough part; a vibration step which vibrates the rough part; a surface treatment step which electroplates the rough part to form an electroplating layer on the surface of the rough part to form a hand tool with a base color identification layer, and a coloring step which uses a Charged Coupled Device to determine a depth of the identification groove and uses a coloring pen of a coloring machine to perform coloring processing to form an identification portion with a different color from the base color identification layer.

A surface treatment for metal surfaces can be used to create one or more desired effects, such as functional, tactile, or cosmetic effects. In one embodiment, the treatment involves selectively masking a portion of the surface using a photolithographic process. The mask can protect the masked portion of the surface during subsequent treatment processes such as texturizing and anodization. The mask can result in the creation of a surface having contrasting effects. A pattern can be formed by the contrasting effects in the shape of a distinct graphic, such as a logo or text.

A surface treatment for metal surfaces can be used to create one or more desired effects, such as functional, tactile, or cosmetic effects. In one embodiment, the treatment involves selectively masking a portion of the surface using a photolithographic process. The mask can protect the masked portion of the surface during subsequent treatment processes such as texturizing and anodization. The mask can result in the creation of a surface having contrasting effects. A pattern can be formed by the contrasting effects in the shape of a distinct graphic, such as a logo or text.

A mess-free coloring system comprising a coloring medium and optionally one or more coloring utensils is disclosed. The coloring medium can include a substrate with or without decorative effects and one or more coating layers on a surface of the substrate. In various examples, the one or more coating layers include a color-triggering developer, e.g., in the form of a substantially clear resin, and an opaque pigment. Decorative effects integrated with or disposed on the substrate, while initially obscured by the one or more coating layers, can be revealed when the coating layers are mixed with at least one color precursor stored and dispensed from a coloring utensil. The opaque pigment is selected and configured such that, upon receipt of at least one color precursor by the one or more coating layers, a change in the pigment's reflective index occurs as the pigment dissolves into the clear resin developer.

A mess-free coloring system comprising a coloring medium and optionally one or more coloring utensils is disclosed. The coloring medium can include a substrate with or without decorative effects and one or more coating layers on a surface of the substrate. In various examples, the one or more coating layers include a color-triggering developer, e.g., in the form of a substantially clear resin, and an opaque pigment. Decorative effects integrated with or disposed on the substrate, while initially obscured by the one or more coating layers, can be revealed when the coating layers are mixed with at least one color precursor stored and dispensed from a coloring utensil. The opaque pigment is selected and configured such that, upon receipt of at least one color precursor by the one or more coating layers, a change in the pigment's reflective index occurs as the pigment dissolves into the clear resin developer.

A method for decorating a given part is designed to print designs onto a coat layer deteriorating the coat layer on the surface of the given part. In the coat layer-forming process, in spreading the metallic-coating material containing aluminum flake onto the surface of the resin compact, the coat layer is formed on the surface of it. In a laser-printing process, a laser is irradiated on the condition of being able to maintain the same state of the coat layer before and after irradiating the laser, so as to reduce the aspect ratio of the micronized-metallic powder, which is the average value of the ratio of the maximum dimension of the micronized-metallic powder to the average value of the minimum dimension of the micronized-metallic powder, which laser irradiation eventually thermally deforms the first scale-shaped micronized-metallic powder into a spherical shape in the coat layer to print designs on the film.

An article having a printed image and an embossed in register (EIR) layer is disclosed, the article having a longitudinal axis and a transverse axis that is perpendicular to the longitudinal axis. The article comprises a substrate having a first side. The printed image is positioned on the first side of the substrate. The printed image comprises at least one identifier. The printed image is positioned between the EIR layer and the substrate. The printed image has a pattern, and the EIR layer has a corresponding pattern that is aligned with the pattern of the printed image along the longitudinal axis and the transverse axis.