A method for producing a sterilized oxygen-absorbing multilayer body is provided. The method may include:

irradiating with radiation an oxygen-absorbing multilayer body comprising at least an oxygen-absorbing layer containing a transition metal catalyst and a thermoplastic resin (a) having a tetralin ring as a structural unit and a layer containing a thermoplastic resin (b); and

heating the oxygen-absorbing multilayer body which has been irradiated with radiation in the sterilizing step at a temperature of the glass transition temperature of the thermoplastic resin (a) minus 20 C. or more and lower than the glass transition temperature of the thermoplastic resin (a) for 50 hours or more.

There are provided a composition for forming an adhesive film for imprinting having excellent adhesiveness and wettability, an adhesive film, a laminate, a method for producing a cured product pattern, and a method for manufacturing a circuit substrate. A composition for forming an adhesive film for imprinting contains a resin having a polymerizable group; and a solvent, in which the resin has at least one kind of a repeating unit derived from a polymerizable compound having a C log P value less than or equal to 0, and solubility of the resin in water at 25 C. is greater than or equal to 1 mass %, provided that the C log P value is a coefficient showing affinity of an organic compound with respect to water and 1-octanol.

A method includes positioning a discrete component assembly on a support fixture of a component transfer system, the discrete component assembly including a dynamic release tape including a flexible support layer, and a dynamic release structure disposed on the flexible support layer, and a discrete component adhered to the dynamic release tape. The method includes irradiating the dynamic release structure to release the discrete component from the dynamic release tape.

An amorphous structure layer is formed on a surface layer of a bonded portion of each of side brackets. A bottomed hole layer including a plurality of bottomed holes is formed on a surface layer of the amorphous structure layer. Each of the bottomed holes has a reverse-tapered shape, which has, between an opening portion and a bottom portion of each of the bottomed holes, a bulged portion having a larger inner circumference than the opening portion. An adhesive is injected into the bottomed holes. An outer circumferential surface of the bonded portion of each of the side brackets and an inner circumferential surface of an end portion of a center beam face toward each other with the adhesive interposed therebetween.

A method of and system for adhesive bonding by a) providing a polymerizable adhesive composition on a surface of an element to be bonded to form an assembly; b) irradiating the assembly with radiation at a first wavelength capable of vulcanization of bonds in the polymerizable adhesive composition by activation of sulfur-containing compound with at least one selected from x-ray, e-beam, visible, or infrared light to thereby generate ultraviolet light in the polymerizable adhesive composition; and c) adhesively joining two or more components together by way of the polymerizable adhesive composition.

A pavement repair system is provided utilizing solid phase auto regenerative cohesion and homogenization by liquid asphalt oligopolymerization technologies. The system is suitable for use in repairing asphalt pavement, including pavement exhibiting a high degree of deterioration (as manifested in the presence of potholes, cracks, ruts, or the like) as well as pavement that has been subject to previous repair and may comprise a substantial amount of dirt and other debris (e.g., chipped road paint or other damaged or disturbed surfacing materials). A system utilizing homogenization by liquid asphalt oligopolymerization is suitable for rejuvenating or repairing aged asphalt, thereby improving properties of the paving material.

A polarizing film, comprising a polarizer, and a transparent protective film laminated on/over at least one surface of the polarizer to interpose an adhesive layer between the surface and the transparent protective film, and the polarizing film comprising, on/over the adhesion surface of the polarizer, an adhesion-improving layer interposed between the polarizer and the adhesive layer. The adhesion-improving layer preferably comprises a compound represented by the following general formula (1):

##STR00001##

wherein X is a functional group containing a reactive group, and R.sup.1 and R.sup.2 each independently represent a hydrogen atom, or an aliphatic hydrocarbon group, aryl group or heterocyclic group that may have a substituent, and the compound represented by the general formula (1) is interposed between the polarizer and the adhesive layer.

The disclosure relates to a decorated, surface-structured wall or floor panel and a method for manufacturing same. The decorated, surface-structured wall or floor panel of the disclosure comprises a substrate made of a fiber cement material, a primer coat on a surface of the substrate, a decorative coat on the primer coat, a coat of radiation curable varnish or hot melt on the decorative coat, a structured plastic film on the coat of radiation-curable varnish or hot melt, and a coat of finishing varnish on the structured plastic film.

Electrochemical cells, and more specifically, release systems for the fabrication of electrochemical cells are described. In particular, release layer arrangements, assemblies, methods and compositions that facilitate the fabrication of electrochemical cell components, such as electrodes, are presented. In some embodiments, methods of fabricating an electrode involve the use of a release layer to separate portions of the electrode from a carrier substrate on which the electrode was fabricated. For example, an intermediate electrode assembly may include, in sequence, an electroactive material layer, a current collector layer, a release layer, and a carrier substrate. The carrier substrate can facilitate handling of the electrode during fabrication and/or assembly, but may be released from the electrode prior to commercial use.

A system for preparing a solar module assembly for recycling includes a vessel configured to control a temperature and a humidity therewithin and to receive a solar module of the solar module assembly, the solar module including a plurality of solar cells, a front layer coupled to the plurality of solar cells by a first encapsulant layer, and a back sheet coupled to the plurality of solar cells by a second encapsulant layer. The system further includes an emitter positioned within the vessel and configured to emit electromagnetic radiation toward the solar module to debond at least one of the first encapsulant layer or the second encapsulant layer and a peel block configured to separate at least one of the front layer or the back sheet from the plurality of solar cells. The system is configured to be transported in one or more standard shipping containers.