Described herein are methods for texturizing metal, closed-end, cylindrical workpieces or capsules. A texturizing apparatus that includes a texturizing sector and a texturizing spindle tip is disclosed. The metal, closed-end, cylindrical workpieces or capsules are placed onto the texturizing spindle tip that includes a texture. A pressure is applied to the texturizing sector and the metal, closed-end, cylindrical workpiece or capsule, and the texturizing spindle tip is rotated against the texturizing sector to impart an image of the texturizing spindle tip texture to the metal, closed-end, cylindrical workpiece or capsule. The texturizing sector may include a smooth surface and a resilient material, and the texturizing spindle tip may include a textured surface and a non-resilient material. The texture of the metal, closed-end, cylindrical workpiece or capsule includes the imparted image of the texturizing spindle tip texture.

A system and method for treating wood material is provided. The method comprising: applying heat to the wood thereby charring the surface of the wood; applying pressure to the wood with a press having a pattern, thereby forming a charred surface with a pattern; cooling the wood with water or other coolant; letting the wood dry; brushing the charred surface of the wood; and applying a sealant to the surface of the wood. The system comprising a heating system for charring the surface of the wood, a mechanical press for forming a pattern on the charred surface, and a cooling system for cooling the wood. The system and method used to produce decorative wood pieces with a charred surface and a pattern pressed into it.

A method for embossing a first grating in a planar material, by means of an embossing body and a counter embossing body, having each a hard surface, the first grating to be embossed comprising alternating substantially parallel and straight ridges and recesses, whereby the top surfaces of the ridges are intended to weaken a direct angular reflection of light by diffuse omnidirectional reflection, thereby producing a visible contrast between the ridges and the recesses. The method comprises on the embossing body providing a first plurality of obtuse pyramids intended to emboss the recesses of the first grating by exerting pressure on a first side of the planar material, the first plurality of obtuse pyramids forming first intermitted lines (row1, row2) corresponding to the intended recesses, and the pyramids in each subset corresponding to one of the first intermitted lines, being separated from each other by a determined distance that creates a gap in the line in such a manner that each gap from a line of pyramids may be connected to a corresponding gap from an adjacent line of pyramids by an imaginary line perpendicular to both of the adjacent lines; and roughening portions of the hard surface of the embossing body, the portions being located between adjacent lines of pyramids and intersecting at least one of the imaginary lines that connect one gap from one line to the corresponding gap from the adjacent line. On the counter embossing body, the method comprises providing a second plurality of obtuse pyramids intended to emboss the ridges of the first grating by exerting pressure on a second side of the planar material opposite to the first side, during embossing the obtuse summits of the pyramid pressing the planar material against a roughened portion of the hard surface of the embossing body, thereby satirizing the top surfaces of the ridges on the first side.

A method of marking a fiber-based product includes providing a heat stamp apparatus including a heating element thermally coupled to a stamping block and a temperature sensor thermally coupled to the stamping block. The system further includes a platen bearing an embossed pattern. Marking is accomplished by heating the stamping element to a predetermined temperature via the heating element and information acquired from the temperature sensor, then bringing the embossed pattern in relation to the surface of the fiber-based product (e.g., via direct contact and compression or simply very close to the surface) to form at least one of a corresponding three-dimensional contour and charred surface region.

An imprinting film for a building material, and a system and method for use of the same are disclosed. In one embodiment of the imprinting film, a transparent film has first and second imprinting states. In the first imprinting state, a first side of the transparent film includes a pigment photomask defining an image and a second side includes a mold receiving surface. In the second imprinting state, the second side includes a relief of the image on the mold receiving surface. The mold receiving surface is configured to receive a molding material and the molding material hardening into the building material. The transparent film transitions from the first imprinting state to the second imprinting state in response to the second side being coated with a light-sensitive, non-laminate adhesive layer and a light source irradiating the first side.

An imprinting film for a building material, and a system and method for use of the same are disclosed. In one embodiment of the imprinting film, a transparent film has first and second imprinting states. In the first imprinting state, a first side of the transparent film includes a pigment photomask defining an image and a second side includes a mold receiving surface. In the second imprinting state, the second side includes a relief of the image on the mold receiving surface. The mold receiving surface is configured to receive a molding material and the molding material hardening into the building material. The transparent film transitions from the first imprinting state to the second imprinting state in response to the second side being coated with a light-sensitive, non-laminate adhesive layer and a light source irradiating the first side.

A food imprinting system including at least one imprint block, and a mounting plate having at least one opening dimensioned for receiving at least a forward portion including a printing face of the imprint block, wherein the imprint block and the mounting plate are mounted within an imprinting assembly.

An embossing device for embossing a marking on a motor vehicle component includes a fastening device via which the embossing device can be fastened to a tool, by which tool the motor vehicle component can be processed. An embossing unit is held on the fastening device and has the marking in negative form, by which embossing unit the marking can be embossed into the motor vehicle component by the tool. A spring device is provided, by which the fastening device can be spring-mounted on the tool.

The flat foil printing press comprises an evacuable back-pressure plate (9), with suction regions (15k) which run in the sheet running direction (X) and which are next to embossing regions (16k), in which foil webs (6k) run. The suction regions are subdivided into several suction segments (10i) which are successive in the sheet running direction, and are each connected to a vacuum source (14) by way of a vacuum feed line (12i) via a vacuum switching element (13i). With the running-out of an embossed sheet (5), firstly all suction segments (10i) covered by the sheet are evacuated, and subsequently the suction segments which are no longer covered by the sheet are successively disconnected from the vacuum source. This results in an error-free separation of foil webs and sheets, for a greater picture quality and machine output.

A method for the rotary blind embossing of a substrate, a device for the rotary blind embossing of a substrate, a female die and/or a male die for use in a device, and to a method for producing a female die and/or a male die. The method for the rotary blind embossing of a substrate in a work station including an embossing roller and a counter-pressure roller includes the following steps: a) preparing the substrate; b) blind embossing the substrate by means of at least one female die provided on the embossing roller and at least one male die provided on the counter-pressure roller. The device for the rotary blind embossing of a substrate has a work station having an embossing roller and a counter-pressure roller, at least one female die being provided on the embossing roller and at least one male die being provided on the counter-pressure roller.