An automotive sheet including a plurality of polygonal unit patterns and a method of manufacturing the automotive sheet are disclosed. In particular, horizontal and vertical lengths of each unit pattern included in a pattern unit may be set in consideration of elongation of a curved sheet. The automotive sheet reduces distortion of the pattern and forms a uniform pattern size and shape, such that it is possible to improve the aesthetic appearance and the tactile sensation of the automotive sheet. In addition, an outer layer of the automotive sheet is formed through vacuum molding, such as IMG molding, after which multiple patterns may be coated and printed to manufacture the automotive sheet. In the method of manufacturing the automotive sheet, therefore, time and cost are reduced compared to other methods, such as a cloth wrapping method, whereby economic efficiency is improved.

A package label is described. The package label comprises a first ply, a second ply, and a first edge. The second ply comprises a pull tab comprising a first boundary adjacent the first edge, a second boundary opposing the first boundary, and an adhesive deadener area. The second ply also comprises a frangible area adjacent the second boundary and positioned apart from the adhesive deadener area. The frangible area comprises multiple lines of weakness forming a discontinuous series of shapes. Various embodiments of the package label area also described.

The present invention relates to multi-layer fiber products and a method of manufacturing these kinds of products. The present product comprises a first layer consists mainly of natural fibers and a second, heat-sealing layer located on top of the first layer. The heat-sealing layer consists mainly of synthetic thermoplastic fibers or particles. According to the present method, the heat-sealing layer is brought onto the first layer already during the web forming process, the first and the second layers being formed and joined together in a foam forming process. With the present invention, it is possible to decrease the amount of plastic materials in packaging materials having heat-sealing properties.

The problem is to produce automotive interior and exterior parts that are excellent in performance and designability. The means for solving the problem is a surface-modified film for automotive interior and exterior parts, in which a surface protective layer is laminated on one side of a polycarbonate base material film, the surface protective layer is a cured product of a photopolymerizable urethane acrylate composition, the photopolymerizable urethane acrylate composition contains photopolymerizable urethane acrylate mixture (A), photopolymerization initiator (C), and further, when necessary, filler (B), and component (A) contains photopolymerizable urethane acrylic polymer (a1), polyfunctional acrylate compound (a2), fluorine-containing photopolymerizable acrylic compound (a3) and photopolymerizable acrylate oligomer having a fluorosilsesquioxane derivative unit (a4).

The present invention relates to a surface cover for a body which can be brought into contact with a liquid, comprising: a layer which at least partly contains gas and which is designed and arranged such that at least some sections of a layer face facing the liquid contacts the liquid; a gas-permeable layer which is arranged on the gas-containing layer on a face that faces the body and is opposite the face facing the liquid or which is integrally formed with the gas-containing layer; and a gas-supplying device which is connected to the gas-permeable layer such that gas can flow from the gas-supplying device to the gas-containing layer through the gas-permeable layer. The invention also relates to an arrangement and a use.

Multilayered polymer films are configured so that successive constituent layer packets can be delaminated in continuous sheet form from the remaining film. The films are compatible with known coextrusion manufacturing techniques, and can be made without adhesive layers between layer packets that are tailored to be individually peelable from the remainder of the film. Instead, combinations of polymer compositions are used to allow non-adhesive polymer layers to be combined such that irreversible delamination of the film is likely to occur at interfaces between layer packets pairs. Some of the polymer layers, including at least one embedded layer, comprise an antimicrobial agent, and these layers may be positioned at the front of each layer packet. After the antimicrobial layer of one layer packet has been used, the packet can be peeled away to expose a pristine antimicrobial layer of the next layer packet. The antimicrobial agent may be organic.

Disclosed is an outdoor color-changeable film with self-recovering properties that includes a transparent base film; a hard-coating pearl layer formed on an outer surface of the transparent base film and includes pearl particles dispersed in a hard-coating agent; a first adhesive layer disposed on another surface of the transparent base layer; a color base film disposed on the first adhesive layer to laminate the color base film onto a surface of the hard-coating pearl layer; a second adhesive layer coated on a surface of the color base film; and a release film detachably laminated onto the second adhesive layer. The self-recovering properties include water repellency, anti-fouling, and antibacterial functions, ultraviolet ray blocking ability, and use in various fields due to a long-lasting film property and an insecticidal effect.

To provide a laminate having a surface layer with a small water sliding angle.

A laminate comprising a substrate, an interlayer formed on the substrate, and a surface layer formed on the interlayer,

wherein the interlayer is a layer formed by using a triazine compound having at least one of a M-OH group (wherein M is a metal atom or a silicon atom) and a group capable of forming the M-OH group, at least one of an amino group and a mercapto group, and a triazine ring, and

the surface layer is a layer formed by using a fluorinated ether compound having a poly(oxyperfluoroalkylene) chain, and at least one of a hydrolyzable group bonded to a silicon atom and a hydroxy group bonded to a silicon atom.

The present invention relates to a surface cover for a body which can be brought into contact with a liquid, comprising: a layer which at least partly contains gas and which is designed and arranged such that at least some sections of a layer face facing the liquid contacts the liquid; a gas-permeable layer which is arranged on the gas-containing layer on a face that faces the body and is opposite the face facing the liquid or which is integrally formed with the gas-containing layer; and a gas-supplying device which is connected to the gas-permeable layer such that gas can flow from the gas-supplying device to the gas-containing layer through the gas-permeable layer. The invention also relates to an arrangement and a use.

Articles are described comprising a surface layer comprising at least one long hydrocarbon chain silane compound (C8-C36) bonded to a siliceous layer such as diamond-like glass. In an embodiment, the siliceous layer has a porosity of no greater than 10% and a thickness no greater than 1 micron. In another embodiment, the siliceous layer comprises 10-50 atomic percent carbon and the article further comprises an organic polymeric base member or a hardcoat layer. Also described are coating compositions comprising at least one C8-C17 hydrocarbon silane compound and at least one C18-C36 hydrosilane compound.