A laminate comprising a base material film, a resin layer (1) having a detachable surface, and a heat-generating conductive layer in this order.

[PROBLEM] To provide an antifouling film equipped with protective film having an antifouling layer with excellent antifouling characteristics even after aging, and to a method for manufacturing same. [SOLUTION MEANS] An antifouling film equipped with protective film in which protective film is laminated on an antifouling layer of an antifouling film having an antifouling layer on a substrate film X, the antifouling film equipped with protective film being such that, when the protective film is detached from the antifouling film, a contact angle of water with respect to a surface of the protective film that had been in contact with the antifouling layer of the antifouling film is 90° to 115°. And also a method for manufacturing the aforementioned antifouling film equipped with protective film in which aging is carried out under certain temperature conditions while the protective film is laminated to a surface of the antifouling layer.

A display device including a flexible base substrate; a pixel circuit and a light emitting structure sequentially disposed on the flexible base substrate; and a stretchable film attached on a bottom of the flexible base substrate. The stretchable film includes a first region and a second region, which are divided according to curvatures of an object, and at least one of different patterns and different disposed structures are arranged in each of the first region and the second region.

There are provided a protective film for display, a production method thereof, and a stretchable display apparatus. The protective film for display comprises: particles of a transparent resin, and a matrix of a transparent elastomer having an elastic modulus lower than that of the transparent resin, wherein the particles of the transparent resin are distributed in the matrix of the transparent elastomer, and when the protective film for display is stretched to reach a critical elongation, a craze occurs in the protective film for display.

A wearable surface cover and method are described herein. The wearable surface cover, in an embodiment, has at least one layer. The at least one layer has an inner surface configured to be removably coupled to a target surface, an outer surface, and silicone. The at least one layer defines an opening that extends through the at least one layer to expose the target surface to an environment.

A protective film 10 of the present invention includes a base material layer and a pressure sensitive adhesive layer, and is used by being attached to a resin substrate 21 at the time of performing heat bending on the resin substrate 21. The pressure sensitive adhesive layer contains a polyolefin having a melting point of lower than 125° C. The base material layer has a first layer which contains a polyolefin having a melting point of 150° C. or higher, and a second layer which contains an adhesive resin. In a case of heating the protective film 100 having such a configuration, in a state of being interposed between two attaching substrates which are formed of polycarbonate, at 145° C. for 30 minutes, peeling off one attaching substrate on the side of the pressure sensitive adhesive layer at 25° C., and then viewing a surface of the one attaching substrate in a plan view, a residual ratio of an area where the pressure sensitive adhesive layer remains is 5% or less.

Provided is a foam sheet that can raise an electrostatic capacitance at the time of compression, and hence can improve sensitivity when used for an electrostatic capacitance sensor. The foam sheet includes: a foam layer; and a pressure-sensitive adhesive layer arranged on at least one side of the foam layer, wherein the foam sheet has a dielectric constant increase amount Q-P at 10% compression of 0.2 (F/m) or more, where P (F/m) represents a dielectric constant of the foam sheet immediately after the foam sheet has been left at rest under conditions of a temperature of 23° C. and a humidity of 50% for 2 hours, and Q (F/m) represents a dielectric constant of the foam sheet at a time when the foam sheet is compressed by 10% immediately after being left at rest under the conditions of a temperature of 23° C. and a humidity of 50% for 2 hours.

A battery packaging material that is excellent in electrolytic solution resistance and ink printing characteristics of the surface. A battery packaging material comprising a laminate having at least a protective layer, a base material layer, a barrier layer, and a heat-sealable resin layer in this order, wherein a maximum value A of absorbance detected in an infrared wavenumber range of 2800 to 3000 cm.sup.−1 and a maximum value B of absorbance detected in an infrared wavenumber range of 2200 to 2300 cm.sup.−1 satisfy the relation: 0.05≤B/A≤0.75, as measured from an outermost surface of the protective layer, using attenuated total reflection Fourier transform infrared spectroscopy.

Provided is a cured product using a composition that is capable of quick curing at low temperatures while having sufficient pot life at room temperature, a method of producing the same, a laminate, and an optical device. A method of producing an organopolysiloxane cured product is provided. The method includes: (i) performing, without irradiating with high-energy radiation, a hydrosilylation reaction upon a composition containing a first hydrosilylation reaction catalyst that exhibits activity in the composition and a second hydrosilylation reaction catalyst that does not exhibit activity when not irradiated with high-energy radiation, but exhibits activity in the composition when irradiated with high-energy radiation, to obtain a thickened material that is fluid at room temperature or a thermoplastic material that is non-fluid at room temperature but exhibits fluidity at 100° C.; and (ii) irradiating the thickened material or thermoplastic material obtained in step (i) with high-energy radiation to obtain a cured product.

Embodiments disclosed herein include devices and methods pertaining to gloves for protection of a wearer's hand. According to various embodiments of the disclosed technology, disclosed is a glove. The glove may include a glove body comprising a cuff portion, a palm portion, a thumb portion, and finger portions. The plurality of finger portions comprises at least one of an index finger portion, a middle finger portion, a ring finger portion, and a pinky finger portion. The glove may include a plurality of impact disbursement pads. The impact disbursement pads comprise finger pads, knuckle pads, metacarpal pads, and a thumb pad. The glove may include a webbing portion and knuckle pads. The glove body is formed from a first material, the webbing portion is formed from a second material, and the impact disbursement pads are formed from a third material.