The present disclosure provides a low-temperature thermal laminating film (10), and a preparation method and the use thereof. The low-temperature thermal laminating film (10) includes a film substrate (100) and an adhesive layer (200), wherein the adhesive layer (200) is disposed on the film substrate (100), and the raw materials of the adhesive layer (200) include an ethylene-vinyl acetate resin, a tackifier and an antioxidant, wherein the weight percentage of the ethylene-vinyl acetate resin is 70%-90%, the weight percentage of the tackifier is 5%-25%, and the weight percentage of the antioxidant is 3%-5%. The adhesive layer (200) in the low-temperature thermal laminating film (10) has a strong bonding force with the film substrate (100), and the low-temperature thermal laminating film can be laminated at relatively low-temperatures and can achieve a good laminating effect.

A decorative material that has higher scratch resistance while preventing defects generated during lamination of a gloss-adjusting layer. In a decorative material according to an embodiment of the present invention, a resin component that constitutes a first gloss-adjusting layer is a mixture of a urethane-based thermosetting resin having a polyol and an isocyanate, and an ionizing radiation-curable resin having an acrylic group or a methacrylic group; and the urethane-based thermosetting resin is contained in an amount within a range of 3 parts by mass or more and 100 parts by mass or less relative to 100 parts by mass of the ionizing radiation-curable resin.

A method for producing a target including halftone printing an ink, by a printer, onto at least one ultraviolet reflective substrate. The method further includes applying at least one overlay material, by at least one overlay device, onto the at least one ultraviolet reflective substrate such that a photorealistic visible image and a photorealistic non-visible image are dually formed on the at least one ultraviolet reflective substrate.

A part includes a surface that having a rich textured appearance formed by an anisotropic repeating pattern including first regions having a first microtexture, and second regions having a second microtexture different from the first microtexture. A metalized layer covers the regions and presents different finishes depending on the microtexture thereunder. In an example embodiment, the first microtexture is highly reflective and the second microtexture is rough to cause a non-specular reflection of incident light. The part may include three-dimensional structures arranged to correspond with the repeating pattern. The three-dimensional structures may be spaced-apart by a base plane that may be flat or which may include some texture or structure. The three-dimensional structures may each include one or more planar portions and/or one or more curved surfaces. Each face or surface of the three-dimensional structures and/or each region of the base plane may have one or more different microtextures.

A part includes a surface that having a rich textured appearance formed by an anisotropic repeating pattern including first regions having a first microtexture, and second regions having a second microtexture different from the first microtexture. A metalized layer covers the regions and presents different finishes depending on the microtexture thereunder. In an example embodiment, the first microtexture is highly reflective and the second microtexture is rough to cause a non-specular reflection of incident light. The part may include three-dimensional structures arranged to correspond with the repeating pattern. The three-dimensional structures may be spaced-apart by a base plane that may be flat or which may include some texture or structure. The three-dimensional structures may each include one or more planar portions and/or one or more curved surfaces. Each face or surface of the three-dimensional structures and/or each region of the base plane may have one or more different microtextures.

An inexpensive decorative sheet has a fine three-dimensional metallic design. A base vapor deposition film and a transfer sheet are provided. The base vapor deposition film includes a transparent film base of primarily a thermoplastic resin and is light-transmissive, and an underlying metal layer. The transfer sheet includes a transfer base film and a reflection pattern formation layer including a pattern metal layer. The transfer sheet is placed onto the base vapor deposition film, and a transfer roller is pressed against the transfer base film to embed a portion of the reflection pattern formation layer onto the base vapor deposition film and bond the portion to the base vapor deposition film. The transfer roller includes a transfer surface, which corresponds to a predetermined design. The transfer sheet is peeled away from the base vapor deposition film to transfer a reflection pattern to the base vapor deposition film.

An inexpensive decorative sheet has a fine three-dimensional metallic design. A base vapor deposition film and a transfer sheet are provided. The base vapor deposition film includes a transparent film base of primarily a thermoplastic resin and is light-transmissive, and an underlying metal layer. The transfer sheet includes a transfer base film and a reflection pattern formation layer including a pattern metal layer. The transfer sheet is placed onto the base vapor deposition film, and a transfer roller is pressed against the transfer base film to embed a portion of the reflection pattern formation layer onto the base vapor deposition film and bond the portion to the base vapor deposition film. The transfer roller includes a transfer surface, which corresponds to a predetermined design. The transfer sheet is peeled away from the base vapor deposition film to transfer a reflection pattern to the base vapor deposition film.

A method for producing a decorative surface on a workpiece (1) is disclosed, the method comprising the following steps: feeding (S10) of the workpiece (1) coated with a liquid layer (2) to a digital printing station; application (S12) of an agent capable of at least partially absorbing electromagnetic radiation, at least on a partial area of the surface of the liquid layer (2), or which, in contact with the surface, produces a reaction product which is capable of at least partially absorbing electromagnetic radiation.

Furthermore, an apparatus (1) for carrying out this method is disclosed.

A decoration element including a color developing layer including a light reflective layer, and a light absorbing layer provided on the light reflective layer; and an in-mold label layer provided on one surface of the color developing layer. The light absorbing layer includes a convex portion shape or concave portion shape having an asymmetric cross-section.

Invention concerning a method for the production of a multilayer matte coated surface, where the carrier (1) is covered with a layer of coating (4) containing an additive to increase the bond strength of the coating between the layers. The coating layer is exposed to excimer radiation with a wavelength of 172 nm and afterwards treated with an electron beam with the dose required to achieve the gelatinisation of the coating, or with UV radiation in order to obtain an adequate gelatinisation effect. A least one other layer of coating with bond strength improving additive is applied to the first layer, which is again exposed to excimer radiation and an electron beam or UV radiation with the same dose as for the first layer. if the second layer is the outer layer, i.e. the last layer (6), the entire surface is treated with an electron beam with the dose required to finish the polymerisation process of all coating layers, or is treated with appropriate UV radiation, in order to achieve an adequate hardening effect.

The invention concerns also a furniture product containing a multilayer matte coated surface obtained with the method according to the invention.