A protective film includes an adhesive material configured for “dry” application to a surface that is to be protected, such as the surface of an electronic device. An installation assembly that includes the protective film is configured to minimize or eliminate contact with the protective film as it is applied to the surface that is to be protected. Methods for manufacturing a protective film and an installation assembly that includes the protective film may be effected in contaminant-free conditions. Methods for applying the protective film are also disclosed, as are device (e.g., electronic devices, etc.) with at least one surface covered with a protective film.

A protective film includes an adhesive material configured for “dry” application to a surface that is to be protected, such as the surface of an electronic device. An installation assembly that includes the protective film is configured to minimize or eliminate contact with the protective film as it is applied to the surface that is to be protected. Methods for manufacturing a protective film and an installation assembly that includes the protective film may be effected in contaminant-free conditions. Methods for applying the protective film are also disclosed, as are device (e.g., electronic devices, etc.) with at least one surface covered with a protective film.

A bionic flexible actuator with a real-time feedback function and a preparation method thereof. The method includes: preparing stimuli-response layer and bionic flexible strain-sensor film layer, arranging bionic V-shaped groove array structure on bionic flexible strain-sensor film layer, and sticking bionic flexible strain-sensor film layer onto stimuli-response layer through adhesive layer; stimuli-response layer is prepared by adopting following steps: mixing multi-walled carbon nanotubes and polyvinylidene fluoride after being dissolved in a solvent respectively and obtaining a mixed solution; performing a film formation process to mixed solution and embedding a first electrode to obtain stimuli-response layer. Due to sticking bionic flexible strain-sensor film layer onto stimuli-response layer, bionic flexible strain-sensor film layer can sense a deformation degree of stimuli-response layer through bionic V-shaped groove array structure, deformation of stimuli-response layer maybe be controlled by feedback of deformation information thereof.

Load-bearing apparatus/systems for location in the vicinity of energized power lines are provided. The apparatus includes a base member. The base member has an upper layer and a backing surface layer. An uppermost surface of the upper layer is adapted to support on it at least power line workers and/or related stringing equipment. At least the uppermost surface of the upper layer is adapted to be electrically conductive. Methods for forming the apparatus are also provided.

A radiative cooling device that is in a state in which a radiative surface is colored is provided. A radiative cooling device CP includes an infrared radiative layer A that radiates infrared light IR from a radiative surface H, a light reflective layer B that is disposed on the side opposite to the radiative surface H with respect to the infrared radiative layer A, and a color portion X. The infrared radiative layer A is a resin material layer J that has a thickness adjusted so as to emit a heat radiation energy greater than an absorbed solar energy in a wavelength range from 8 μm to 14 μm, and the color portion X contains a colorant that absorbs light in the visible range

A high-precision marker, which is easy to manufacture, has a base material layer, a first layer which is laminated onto one surface of the base material layer, and which is observed in a first color, and a second layer which is partially laminated onto the first layer, is observed in a second color different from the first color, and partially conceals the first layer, wherein the first layer is observable in a region in which the second layer is not laminated, and the second layer is formed by a resist material.

A cushion structure and a manufacturing method thereof are provided. The cushion structure includes an intermediate layer, two rubber layers, and two surface layers. The intermediate layer has a first surface and a second surface opposite to the first surface. The two rubber layers are respectively disposed on the first surface and the second surface of the intermediate layer. The two surface layers are respectively disposed on the two rubber layers. Each of the two rubber layers is formed from a rubber composition that includes a main rubber, a solvent, a conductive carbon material, and a foaming agent.

A cushion structure and a manufacturing method thereof are provided. The cushion structure includes an intermediate layer, two rubber layers, and two surface layers. The intermediate layer has a first surface and a second surface opposite to the first surface. The two rubber layers are respectively disposed on the first surface and the second surface of the intermediate layer. The two surface layers are respectively disposed on the two rubber layers. Each of the two rubber layers is formed from a rubber composition that includes a main rubber, a solvent, a conductive carbon material, and a foaming agent.

An impedance matching film 10a includes a plurality of openings 11 regularly arranged along a principal surface 10f of the impedance matching film 10a. In the impedance matching film 10a, a value ρ/t obtained by dividing a specific resistance ρ of a material of the impedance matching film 10a by a thickness t of the impedance matching film 10a is 1 to 300 Ω/□.

Multilayer riblet appliques are disclosed. An example riblet applique includes a fluorosilicone riblet structure including riblet ridges and a base from which the riblet ridges extend, and a support layer proximate the fluorosilicone riblet structure. The support layer includes a vacuum-plasma-treated polymer film having a first surface and a second surface opposite the first surface, and a polymer sub-layer proximate the second surface of the polymer film.