Resin layers and interlayers exhibiting enhanced adhesion to inorganic surfaces, such as glass, are provided. In some cases, the layers and interlayers may comprise at least one adhesion stabilizing agent for improving adhesion to various surfaces, even in the presence of moisture. Such layers and interlayers may be useful, for example, in multiple layer panels, such as, for example, safety glass used in automotive and architectural applications.

A method for producing a touch input sensor includes stacking an intermediate resin layer (33) containing a photosensitive resin and an ultraviolet absorber and a transparent conductive film (32) on both surfaces of a transparent substrate (10) in that order, performing a pattern exposure with ultraviolet rays (L) applied to both surface sides, and performing developing to form a transparent electrode formed of the transparent conductive film (32) on both surfaces of the transparent substrate (10).

Resin layers and interlayers exhibiting enhanced adhesion to inorganic surfaces, such as glass, are provided. In some cases, the layers and interlayers may comprise at least one adhesion stabilizing agent for improving adhesion to various surfaces, even in the presence of moisture. Such layers and interlayers may be useful, for example, in multiple layer panels, such as, for example, safety glass used in automotive and architectural applications.

A heat-shielding laminated glass laminate contains at least one film A containing a polyvinyl acetal PA and optionally at least one plasticiser WA, and at least one film B containing a polyvinyl acetal PB and at least one plasticiser WB, positioned between two glass sheets, wherein prior to lamination: a proportion of plasticiser WA of less than 16% by weight is dispersed in film A, a proportion of plasticiser WB of at least 16% by weight is dispersed in film B, and heat-shielding particles are dispersed in film A.

Manufacturing decorative panels by using a web-fed inkjet printer. During the feeding of the to-be-printed substrate, the tension of the substrate is controlled by a dancer unit (720) which includes a dancer roll (200), having a connector (120) on both side ends of said roll, and wherein both connectors (120) are connected to a pair of parallel guiders (110) for floating said roll along a floating path (210); and wherein the step of controlling comprises the step of moving one guider (110) of said pair of guiders (110) parallel to said floating path (210) whereby the dancer roll (200) is tilted.

The resin film of the present invention is such that, when one surface of a laminated glass obtained by adhesion of two sheets of standard glass having a thickness of 2.5 mm with the resin film being interposed is irradiated with simulated solar light by a solar simulator in a perpendicular direction, a ratio between a maximum value and a minimum value with respect to brightness measured in directions at angles relative to a direction perpendicular to other surface of the laminated glass, of 30, 45, 60 and 75, is 0.1 or more. The laminated glass of the present invention comprises the resin film of the present invention and paired glass members, in which the resin film is placed between the paired glass members. The screen of the present invention is such that, when one surface is irradiated with simulated solar light by a solar simulator in a perpendicular direction, a ratio between a maximum value and a minimum value with respect to brightness measured in directions at angles relative to a direction perpendicular to other surface, of 30, 45, 60 and 75, is 0.1 or more. According to the present invention, there can be provided a resin film, a laminated glass and a screen, in which high-contrast image display is realized with the laminated glass being low in haze.

The resin film of the present invention is such that, when one surface of a laminated glass obtained by adhesion of two sheets of standard glass having a thickness of 2.5 mm with the resin film being interposed is irradiated with simulated solar light by a solar simulator in a perpendicular direction, a ratio between a maximum value and a minimum value with respect to brightness measured in directions at angles relative to a direction perpendicular to other surface of the laminated glass, of 30, 45, 60 and 75, is 0.1 or more. The laminated glass of the present invention comprises the resin film of the present invention and paired glass members, in which the resin film is placed between the paired glass members. The screen of the present invention is such that, when one surface is irradiated with simulated solar light by a solar simulator in a perpendicular direction, a ratio between a maximum value and a minimum value with respect to brightness measured in directions at angles relative to a direction perpendicular to other surface, of 30, 45, 60 and 75, is 0.1 or more. According to the present invention, there can be provided a resin film, a laminated glass and a screen, in which high-contrast image display is realized with the laminated glass being low in haze.

An article including a composite. The composite includes a polymeric binder and particles in the polymeric binder, the particles being magnetically responsive and having a flake-like geometry. The particles include a thermally anisotropic material such that the particles are characterized by a higher in-plane thermal conductivity and a lower through-plane conductivity. The composite is characterized by at least one preferred thermal conduction path defined in sections of differently oriented alignments of the particles. At least two of the sections are differently oriented relative to one another by a gradient angular difference such that the at least two of the sections are non-parallel and non-perpendicular to one another. In specific embodiments, the particles are hexagonal boron nitride with superparamagnetic iron oxide nanoparticles adsorbed thereon, and the polymeric binder includes polyvinyl pyrrolidone.

A multilayer tube for a vehicle, a vehicle including a multilayer tube, and a method of forming a multilayer tube. The multilayer tube includes a liner of polyether ether ketone, which defines a bore in the multilayer tube. The multilayer tube also includes an exterior layer covering the liner. The exterior layer includes at least one polymer selected from a polyamide polymer, a polyphenylene sulfide polymer, a polyamide copolymer, and a polyphenylene sulfide alloy. The multilayer tube exhibits a continuous use temperature of 150 degrees Celsius or greater.

Provided is a double layer tube including an inner layer (A) and an outer layer (B) disposed directly on the inner layer (A), wherein the inner layer (A) comprises a copolymer (a) that comprises tetrafluoroethylene unit and perfluoro(propyl vinyl ether) unit, and the outer layer (B) comprises a polymer (b) that comprises at least chlorotrifluoroethylene unit; wherein the copolymer (a) has a rate of decrease in weight of 0.05 mass % or less after heat treatment at 380 C. for 1 hour; and wherein a ratio between a thickness of the inner layer (A) and a thickness of the outer layer (B), ((A)/(B)), is 30.0/70.0 to 67.0/33.0.