A method of manufacturing an in-mold decorative molded article capable of transferring a decorative pattern with target dimensions at a target position of a decorative molded article according to the present disclosure includes supplying an in-mold transfer foil to a metal mold, in which a clear layer having transparency and lower extensibility than a base material film is formed in the first layer on an in-mold raw fabric configured by forming a mold releasing layer and a primer layer on the base material film and a decorative figure is printed in the second and subsequent layers on the in-mold raw fabric, clamping the metal mold, injecting and cooling a molding resin and taking out an molded article formed of the molding resin cooled and cured in the metal mold in which the clear layer and a transfer layer having the decorative figure in the in-mold transfer foil are integrated on the surface by opening the mold, molding the molded article integrally with a cutting portion not necessary for a target product inside the metal mold by the molding resin at an outer periphery of the product and arranging a boundary of a printing region of the clear layer in the in-mold transfer foil in the cutting portion so as to be larger than the outer periphery of the product.

A method of manufacturing an in-mold decorative molded article capable of transferring a decorative pattern with target dimensions at a target position of a decorative molded article according to the present disclosure includes supplying an in-mold transfer foil to a metal mold, in which a clear layer having transparency and lower extensibility than a base material film is formed in the first layer on an in-mold raw fabric configured by forming a mold releasing layer and a primer layer on the base material film and a decorative figure is printed in the second and subsequent layers on the in-mold raw fabric, clamping the metal mold, injecting and cooling a molding resin and taking out an molded article formed of the molding resin cooled and cured in the metal mold in which the clear layer and a transfer layer having the decorative figure in the in-mold transfer foil are integrated on the surface by opening the mold, molding the molded article integrally with a cutting portion not necessary for a target product inside the metal mold by the molding resin at an outer periphery of the product and arranging a boundary of a printing region of the clear layer in the in-mold transfer foil in the cutting portion so as to be larger than the outer periphery of the product.

A transfer film including a substrate, a protection layer, a metal coating layer, and an ink layer is provided. The substrate has a first surface and a second surface, and the first surface has a first stereoscopic pattern. The protection layer is disposed on the substrate, and has a third surface and a fourth surface. The third surface contacts the first surface, and has a second stereoscopic pattern complementing the first stereoscopic pattern. The fourth surface has a third stereoscopic pattern. The metal coating layer is disposed on the protection layer, and has a fifth surface contacting the fourth surface and a sixth surface. The ink layer is disposed on the metal coating layer. The protection layer and the substrate are separated after transfer to expose the second stereoscopic pattern and reflect out the third stereoscopic pattern. A manufacturing method of the transfer film is also provided.

A metal recycling method comprises attaching a tape to a metal layer of a semiconductor structure; and separating a part of the metal layer from the semiconductor structure and transferring the part of the metal layer to the tape by a pressure difference.

A metal recycling method comprises attaching a tape to a metal layer of a semiconductor structure; and separating a part of the metal layer from the semiconductor structure and transferring the part of the metal layer to the tape by a pressure difference.

A plotter includes a mounting portion, a first movement mechanism, a second movement mechanism, a processor, and a memory. The memory is configured to store computer-readable instructions that, when executed by the processor, instruct the processor to perform processes. The processes include identifying a contour of a pattern to be processed on the workpiece, generating plot data instructing drawing positions of a drawing line representing the contour and a fill line, and controlling the first movement mechanism and the second movement mechanism on the basis of the generated plot data, relatively moving the mounting portion and the workpiece, and drawing the drawing line and the fill line on the workpiece using a pen mounted on the mounting portion. The fill line is a line to fill, using the pen, an offset area offset by a first predetermined amount to an inward side of the contour from the drawing line.

A plotter includes a mounting portion, a first movement mechanism, a second movement mechanism, a processor, and a memory. The memory is configured to store computer-readable instructions that, when executed by the processor, instruct the processor to perform processes. The processes include identifying a contour of a pattern to be processed on the workpiece, generating plot data instructing drawing positions of a drawing line representing the contour and a fill line, and controlling the first movement mechanism and the second movement mechanism on the basis of the generated plot data, relatively moving the mounting portion and the workpiece, and drawing the drawing line and the fill line on the workpiece using a pen mounted on the mounting portion. The fill line is a line to fill, using the pen, an offset area offset by a first predetermined amount to an inward side of the contour from the drawing line.

A method of transfer lamination involves applying a release coating to a first side of a film, applying an application layer to the first side of the film over the release coating, bonding the first side of the film to a substrate, applying a second coating to a second side of the film while the first side of the film is bonded to the substrate, and removing the film from the substrate leaving the application layer deposited on the substrate and the second coating on the second side of the film.

A method for producing a smooth coating on a substrate includes applying a release coating to a first side of a film, applying an application layer to said first side of said film over said release coating, bonding said first side of said film to a first substrate, applying a printable coating to a second side of said film while said first side of said film is bonded to said first substrate, and removing said film from said first substrate leaving said application layer deposited on said first substrate and said printable coating on said second side of said film.

To solve the problem of requiring a number of fabrication steps for making a printed matter formed with protrusions and depressions and having its protruding portions decorated with metal foil. A printed matter according to the present invention includes: a sheet or base paper; a printed layer printed on a surface of the sheet or base paper with ink containing releasing agent; a graphic formed on a surface of the printed layer with ink or resin that adheres to the printed layer; and a metal foil applied only on a surface of the graphic via adhesive having a property of not adhering to the printed layer but adhering to the graphic formed of ink or resin.