A polarizing plate laminate according to an exemplary embodiment of the present disclosure includes: a polarizing plate; a first adhesive layer and a first separate film which are provided on one surface of the polarizing plate; and a second adhesive layer and a second separate film which are provided on the other surface of the polarizing plate, in which the second separate film has a total thickness of more than 75 μm and 150 μm or less.

The application relates to a full lamination method and apparatus for a display screen, wherein the full lamination method for a display screen comprises: arranging a first layer body horizontally; coating liquid glue on an upper surface of the first layer body; placing a second layer body over the first layer body at a preset inclination with a lower surface of the second layer body contacting with an initially affixed end of the first layer body; controlling the second layer body to swing in a direction approaching the first layer body according to a speed curve gradually reducing over time, so that the second layer body is affixed to the first layer body at a preset speed.

An electricity-generating coating is provided for a surface of a cargo carrying vehicle. The electricity-generating coating includes a conformal organic photovoltaic device configured to be applied and conformed to the surface of the cargo carrying vehicle and configured to supply power for one or more electronic or electrical components or systems at least one of on-board or off-board the cargo carrying vehicle.

A tool for applying tint film to an inside window surface of an automobile has a unitary body with a handle portion and a downwardly depending neck extending from the handle portion to an elongate blade supporting portion. The blade supporting portion includes a bottom zone extending to a chamfered distal end. A flexible blade is attached to the bottom zone and the distal end of the blade supporting portion. The flexible blade includes a forwardmost portion that extends beyond the distal end of the blade supporting portion.

A vacuum lamination system includes a film supply assembly, a film collection assembly, a lower lamination body, an upper lamination body, an air extractor, a moving assembly and a cutting assembly. The lower lamination body includes a first casing base and a lower heating assembly vertically movable and disposed in the first casing base. The lower heating assembly carries and moves the substrate so that the substrate is substantially flush with a top surface of the first casing base or retracted into the first casing base. The upper lamination body is vertically movable and disposed above the lower lamination body and includes an upper casing and an upper heating assembly disposed on the upper casing. The air extractor is connected to the lower lamination body. The moving assembly changes a height of a portion of the film. The cutting assembly cuts a portion of the film laminated onto the substrate.

An object is to provide a composite material manufacturing method for improving interlayer strength. The present disclosure provides a composite material manufacturing method of laminating a plurality of prepregs (10) formed of a fiber reinforced base material impregnated with an uncured matrix resin and performing hot molding, the method including: using the prepregs (10) each provided with a gap layer (12) that does not contain a resin and is continuous in an in-plane direction and resin layers (11a, 11b) disposed on both surfaces of the gap layer; disposing a plurality of short fibers (13) on facing surfaces of the prepregs (10) that are adjacent to each other; and evacuating the laminated prepregs (10) to degas the gap layer (12) and then performing hot molding.

A bonding device and a bonding method for an irregular-shaped curved cover plate and a flexible screen are disclosed. The bonding device includes: a support body supporting the flexible screen; and a bonding body supporting the flexible screen together with the support body and pressing the flexible screen. The bonding body has a cylindrical shape. A cross-sectional shape of the bonding body along an axial direction matches with a cross-sectional shape of the irregular-shaped curved cover plate. The support body is located at a radial end of the bonding body. The bonding body can be expanded along the axial direction, to have opposite sides thereof abutted against the arc hook areas.

The disclosure provides a method for forming an information carrying card or a core layer of an information carrying card using a radiation curing, and an apparatus configured to provide such a radiation curing. The method includes providing a carrier layer that defines at least one cavity, providing an inlay layer supporting at least one electronic component, and positioning at least a portion of the inlay layer in the at least one cavity. The method further comprises dispensing a radiation crosslinkable polymer composition over the inlay layer, and irradiating the radiation crosslinkable polymer composition.

A method of encapsulating an electronic component. The method includes applying a first layer of an encapsulating composition onto an electronic component from an applicator roll, the electronic component being disposed on a substrate. The applicator roll comprises an outer surface and is spaced apart from the electronic component such that a gap exists between the applicator roll and the electronic component. The gap controls the thickness of the first layer of encapsulating composition. The first layer of encapsulating composition encapsulates the electronic component on the substrate. An interface between the surface of the electronic component and the encapsulating composition being substantially free of voids.

An autonomous application machine installs screen protectors on mobile devices, such as cell phones. The machine has an enclosure with an interior. A cleaning station has a cleaning implement to contact a screen of the mobile device. A magazine carries a plurality of screen protectors. A lamination station has an applicator to place a screen protector from the magazine on the screen of the mobile device. A vision inspection station has a light source and a camera to initially visually inspect the screen of mobile device prior to cleaning in the cleaning station and to verify that the screen is undamaged and free of an existing screen protector; and subsequently visually inspect the screen protector on the mobile device after installation in the lamination station and to verify that the screen protector has been properly installed.