The present disclosure is drawn to methods of embossing print media, printing systems, and printers. In one example, a method of embossing a print medium can include printing a radiation absorbing ink on a coated print medium to form a printed area. The coated print medium can include a print substrate and an expanding coating layer on the print substrate. The expanding coating layer can include a thermal expansion agent having a minimum expansion temperature. The method can further include heating the coated print medium using a heater such that the printed area and unprinted area reach a first temperature from 5 C to 90 C below the minimum expansion temperature. The coated print medium can be irradiated with radiation having a wavelength from 200 nm to 400 nm to selectively heat the print area and expand the thermal expansion agent in the printed area.

A system and method for printing patterns on a substrate, including a substrate; a powder; a sealing coating; and a UV curable paint; wherein the powder, the sealing coating and the UV curable paint are deposited onto the substrate and heated and cured. The method is designed to make the substrate have a faux appearance with lower costs than manufacturing the real substrate it was meant to look like.

In a setting apparatus including a control unit, the control unit is configured to: set, by a user operation, an irradiation condition of a laser beam for a thermally expandable sheet, a surface of the thermally expandable sheet being heated and expanded by being irradiated with the laser beam; and control an output and a scanning speed of the laser beam in accordance with the set irradiation condition, and in the setting, (i) a surface state of the thermally expandable sheet after expansion is selectable from a plurality of mutually different surface states, and (ii) the irradiation condition is set by the user operation according to the surface state selected from among the plurality of surface states.

In a setting apparatus including a control unit, the control unit is configured to: set, by a user operation, an irradiation condition of a laser beam for a thermally expandable sheet, a surface of the thermally expandable sheet being heated and expanded by being irradiated with the laser beam; and control an output and a scanning speed of the laser beam in accordance with the set irradiation condition, and in the setting, (i) a surface state of the thermally expandable sheet after expansion is selectable from a plurality of mutually different surface states, and (ii) the irradiation condition is set by the user operation according to the surface state selected from among the plurality of surface states.

A process for producing tactile and sealing features on flexible films 40. The temperature of resin 80 is raised until it melts, but below its flash point. Wetting hot roll cylinder 10 with the resin 80 in negative cells 14 and transferring to positive textures 24 in cylinder 20. Transferring part of the thermo resin 80 on cylinder 20 to coacting cylinder 30 and passing a continuous flexible film 40 through coacting hot cylinder 20 and cold cylinder 30. The control of the temperature differential between cylinder 20 and film 40 allows the maximum transfer of resin 80 to form tactile structures. Sealable print areas are also created in film 40 that are particularly useful for packaging applications.

A sheet member includes a transmissive member, a white member, and a phosphorescent part. The transmissive member is a sheet-shaped member with a transmissive property. The white member is a white sheet-shaped member arranged so as to overlap the transmissive member. The phosphorescent part is provided between the transmissive member and the white member and contains a phosphorescent material.

Provided is an ink jet recording method including recording an infrared absorbing image by applying a first ink, which contains an infrared absorber and a first curable compound, onto an impermeable substrate by an ink jet method, semi-curing the infrared absorbing image by irradiating the infrared absorbing image with active energy rays, recording a non-infrared absorbing image by applying a second ink, which has a content of the infrared absorber of lower than 0.1% by mass and contains a second curable compound, to a surface of the substrate with the infrared absorbing image by the ink jet method, and curing the semi-cured infrared absorbing image and the non-infrared absorbing image by irradiating these images with active energy rays.

A coiled metal substrate with a faux galvanized surface appearance. The faux galvanized surface of the substrate including a spangle print pattern of polyvinylidene fluoride (PFDV) flexographically applied to the metal substrate. Atop the PFDV print pattern is semi-transparent coating of fluoroethylene vinyl ether (FEVE) flexographically applied atop the spangle print pattern of PFDV.

An apparatus, system, method, and a control program stored in a non-transitory recording medium, each of which: receives a plurality of input images corresponding to respective viewpoints; generates, based on the plurality of input images, a first output image and a second output image that are to be printed by duplex printing on at least one transmissive transfer medium having image layers on both sides thereof, so as to reproduce at least part of one of the input images corresponding to each of the viewpoints on the transmissive transfer medium; and instructs a printer to print the first output image and the second output image by duplex printing.

An apparatus, system, method, and a control program stored in a non-transitory recording medium, each of which: receives a plurality of input images corresponding to respective viewpoints; generates, based on the plurality of input images, a first output image and a second output image that are to be printed by duplex printing on at least one transmissive transfer medium having image layers on both sides thereof, so as to reproduce at least part of one of the input images corresponding to each of the viewpoints on the transmissive transfer medium; and instructs a printer to print the first output image and the second output image by duplex printing.