The present invention aims to provide a conductive layered body having excellent solvent resistance and scratch resistance as well as a low haze value and a significantly high light transmittance. The present invention relates to a conductive layered body including, as an outermost layer thereof, a conductive layer containing a conductive fibrous filler, wherein the conductive layered body has a Martens hardness of 150 to 3,000 N/mm.sup.2 as measured at an indentation depth of 100 nm from a surface, and a ratio, in atomic percentage, of a conductive material element constituting the conductive fibrous filler on an outermost surface-side surface of the conductive layer is 0.15 to 5.00 at %.

Paint film composites comprise sheet metal, a color layer, and an optional transparent protective layer. Methods of making and using the paint film composites, and shaped articles made thereby, are also disclosed.

Disclosed is a method comprising depositing a pre-determined pattern of curable adhesive on a substrate by a printer; pre-curing the pattern of curable adhesive by at least one first energy source positioned between the printer and at least one nip roller; pressing by the at least one nip roller a foil, fed from a spool, to the substrate with the pattern of curable adhesive deposited thereon; wherein at least one of the at least one nip roller having an inner volume and comprising a portion constructed from a material to enable passage of energy; generating, by at least one second energy source, energy directed at the pattern of curable adhesive to cause a curing process of the adhesive to occur; wherein the at least one second energy source is disposed within the inner volume of the at least one nip roller; at least one of absorbing and removing heat from the at least one nip roller, by a cooling mechanism; and peeling away excess foil.

In a method for manufacturing a radiation window there is produced a layered structure where an etch stop layer exists between a carrier and a solid layer. A blank containing at least a part of each of the carrier, the etch stop layer, and the solid layer is attached to a radiation window frame. At least a part of what of the carrier was contained in the blank is removed, thus leaving a foil attached to the radiation window frame, wherein the foil contains at least a part of each of the etch stop layer and the solid layer.

The present invention discloses means and methods for manufacturing a multilayer of liquid crystal dispersion film using releasable supporting films and means and methods for manufacturing a haze-free and low-cost multi liquid crystal-layer PDLC, LCDP, PSLC or polymer network using reliable supporting films.

A method for manufacturing decorative surfaces including the steps of inkjet printing an image on a first thermoplastic foil by jetting and curing one or more pigmented free radical curable inkjet inks on the first thermoplastic foil: applying and curing a free radical curable liquid as an adhesive layer on the inkjet printed image: and heat pressing the first thermoplastic foil with a second thermoplastic foil into a decorative laminate: wherein at least one of the first and second thermoplastic foils is a transparent thermoplastic foil: wherein the one or more pigmented free radical curable inkjet inks include a colour pigment and a polymerizable composition containing 10 to 90 wt % of one or more monofunctional polymerizable compounds: and wherein the free radical curable liquid includes a polymerizable composition contains 15 wt % or more of polyfunctional polymerizable compounds and 15 wt % or more of a specific monofunctional polymerizable compound.

Described herein are methods of preparing continuous polyolefin textiles laminated to a physically crosslinked, closed cell continuous foam sheet. The methods can include extruding a foamable sheet through a nip while simultaneously feeding a polyolefin textile into the nip to laminate the textile to the foamable sheet, irradiating the laminate, and foaming the laminate

The invention provides a diaphragm for a microspeaker and a manufacturing method thereof. The diaphragm is a single-layer diaphragm or a multi-layer diaphragm and comprises at least one layer of a chemically cross-linked thermoplastic polyester elastomer, wherein: the chemically cross-linked thermoplastic polyester elastomer has a loss factor less than or equal to 0.4 at a temperature range not higher than a softening temperature of thermoplastic polyester elastomer before chemical crosslinking plus 40 C., as measured by a rheological curve; and the diaphragm further has a yield strain in the range of 7% to 30%. The diaphragm for a microspeaker according to the technical solution of the present invention is easy to be prepared by thermoforming, and has appropriate modulus, good strength, elasticity, and thermal stability.

An object of the present invention is to provide a method for producing a laminated film, the method capable of producing a laminated film excellent in curability of an ink and adhesion between the ink and a second substrate with high productivity. The present invention is a method for producing a laminated film, the method including: a printing step of applying an active energy ray-curable printing ink to a first substrate film formed of at least a plastic film; an adhesive application step of applying an adhesive; and a lamination step of laminating a second substrate, the steps being performed in this order in-line, the method further including a curing step of irradiating the active energy ray-curable printing ink with an active energy ray to cure the active energy ray-curable printing ink after at least the adhesive application step.

Disclosed herein is a novel, sustainable and recyclable flexible packaging film used for the purpose of food and non-food packaging. The invention also relates to improved method of manufacturing the recyclable flexible packaging film which results in enhanced recyclability of the film.