The present disclosure discloses a method for improving fatigue strength of a workpiece (100). The method comprises positioning the workpiece (100) in a punch and die assembly (102). Operating the punch and die assembly (102) one or more times to imprint surface features (2) on a portion of a surface of the workpiece (100), wherein the surface features (2) induces compressive residual stresses at a sub-surface level of the workpiece (100), and improves the fatigue strength of the workpiece (100).

A plastic component is provided that leads to an initial friction reduction with a friction partner. At least part of the surface of the plastic component, which interacts with a surface of a friction partner, is provided with a plurality of structures. The structures are composed of at least one structure type. Between two adjacent structure types, a distance is formed in the range of 10 microns to 1 mm. A width of the structure types is in the range of 10 microns to 100 microns. A height or depth of the structure types is in the range from 1 micron to 100 microns.

An embossing die includes a recess into which a component can be introduced for embossing and an embossing bead protruding into the recess and contacting the component. The recess has a side wall that extends at least partially conically or concavely in an embossing direction.

A graphic arts support assembly is operable to be used with a graphic arts plate assembly in a press. The graphic arts support assembly and the plate assembly are configured for removable association with a lift mechanism including a shiftable lift element. The support assembly includes a graphic arts magnetic support structure operable to removably support the graphic arts plate assembly. The magnetic support structure includes a support plate, a magnet fixed relative to the plate, and an alignment element projecting from the support plate. The support assembly is operable to be mounted on the lift mechanism so that the lift element is aligned with a lift opening of the support plate, with the lift element shiftable through the lift opening to locate at least part of the graphic arts plate assembly away from the support plate.

A graphic arts support assembly is operable to be used with a graphic arts plate assembly in a press. The graphic arts support assembly and the plate assembly are configured for removable association with a lift mechanism including a shiftable lift element. The support assembly includes a graphic arts magnetic support structure operable to removably support the graphic arts plate assembly. The magnetic support structure includes a support plate, a magnet fixed relative to the plate, and an alignment element projecting from the support plate. The support assembly is operable to be mounted on the lift mechanism so that the lift element is aligned with a lift opening of the support plate, with the lift element shiftable through the lift opening to locate at least part of the graphic arts plate assembly away from the support plate.

A method of embossing a crown cap comprises the steps of: detecting a pre-printed drawing on the bottom of the crown cap, varying the angular positioning of the crown cap so as to position the drawing according to a preset positioning, and impressing a raised/recessed pictogram on the bottom of the crown cap. The pre-printed drawing and the embossed pictogram will have a desired reciprocal position.

A plastic component is provided that leads to an initial friction reduction with a friction partner. At least part of the surface of the plastic component, which interacts with a surface of a friction partner, is provided with a plurality of structures. The structures are composed of at least one structure type. Between two adjacent structure types, a distance is formed in the range of 10 microns to 1 mm. A width of the structure types is in the range of 10 microns to 100 microns. A height or depth of the structure types is in the range from 1 micron to 100 microns.

A stamping machine is configured for stamping with a stamping head onto an article, The stamping machine includes a camera and a computer system. The computer system includes a display. The computer system is configured to capture from the camera an image of the article prior to the stamping and presents the image on the display. A user selects a symbol using the computer system prior to the stamping onto the article. The user using the computer system, positions the selected symbol as a displayed symbol superimposed on the image of the article.

Embossing methods and systems include a substrate (e.g., a sheet of paper or other material) delivered through a rendering device (e.g., a printer). An array of time-delayed pins can be driven into the substrate as the substrate travels through an in-line path provided by the rendering device to produce a latent embossed image composed of a combination of shapes depressed in the substrate. An ATA (Acoustic Transfer Assist) system can transfer an image to the substrate. The substrate with the latent embossed image is then transferred to the ATA system and the substrate is rendered with an embossed image based on the latent embossed image.