A method for manufacturing a flexible metal-clad laminated plate includes the steps of: (a) obtaining a laminated body by laminating a polyimide resin film including a non-thermoplastic polyimide layer and an adhesive layer containing thermoplastic polyimide, the adhesive layer being provided on at least one side of the non-thermoplastic polyimide layer, and a metal foil; and (b) subjecting the laminated body obtained in the step (a) to heat treatment under an inert gas atmosphere and a pressure of 0.20 to 0.98 MPa at a temperature of a glass transition temperature Tg of the thermoplastic polyimide20 C. to the glass transition temperature Tg+50 C.

The disclosure provides a method for manufacturing a heat insulated PVB film, in which insulated nanoparticles with a particle diameter of 1-800 nm are added in the manufacturing process of PVB film to allow production of a PVB film with high insulation and transmittance. The disclosure also provides a method for manufacturing heat insulated blast-resistant glass, in which two panes of glass are laminated and bound by the PVB film to obtain blast-resistant glass with high insulation and high transmittance. The method for manufacturing heat insulated blast-resistant glass needs not applying an additional insulation coating or insulation film on conventional glass products and therefore allows manufacturing process to be simplified and manufacturing costs to be reduced.

A vacuum system for film lamination, including a vacuum chamber module, a film-pressing module, a substrate susceptor module and a hot-plate heating module, is disclosed, wherein the film-pressing module includes a film-pressing platen, and the substrate susceptor module includes a substrate susceptor supported by a spring-loaded mechanism. During a film-lamination process, the film-pressing platen is actuated to move downwards to attach a laminating film onto a substrate, and the substrate susceptor is actuated to move downwards and finally rest on the hot-plate heating module. Therefore an adhesive glue disposed between the laminating film and the substrate can be thermally cured. After completing the film-lamination process, the film-pressing platen is actuated upwards so that the substrate susceptor also is actuated to move upwards to its initial position by a restoring force exerted by the spring-loaded mechanism. In such manner, the laminating film can be properly bonded to the substrate to avoid lamination defects such as air bubbles and to improve adhesion strength.

A substrate laminating apparatus, including a first vacuum chamber including a first opening; a first table provided inside the first opening for holding a first substrate; a second vacuum chamber including a second opening; a second table provided inside the second opening for holding a second substrate, wherein the substrates are laminated by reducing a pressure in a closed space formed by having the first opening faced with the second opening. The apparatus also includes a vacuum evacuation unit connected to the first vacuum chamber or the second vacuum chamber and performs reduced-pressure evacuation of the closed space. When there is a direction along which priority is given on lamination precision when laminating the first and second substrates, and the direction is defined as a lamination precision priority direction, a reduced-pressure evacuation direction done by the vacuum evacuation unit is a direction different from the lamination precision priority direction.

Disclosed is a laminate which includes one or more soft layers and an electronic device enclosed by the one or more soft layers, wherein the one or more soft layers have a flexural modulus of 80 MPa or more and 1,000 MPa or less and a water vapor permeability at 40 C. and 90% RH of 15 [g/(m.sup.2.Math.24 h).Math.100 m] or less.

A substructure and its method of use eliminates core crush during the manufacturing of a hybrid sandwich-structured composite panel. The substructure is used in the manufacturing of the hybrid sandwich-structured composite panel by positioning a core of the composite panel in a cavity of the substructure and positioning the substructure and the core between layers of composite material where the substructure protects the core from core crush as the hybrid sandwich-structured composite panel is subjected to vacuum pressure and heat during autoclaving and then cured.

A sheet with registration holes cut in it is mounted to a surface of a pallet so that its registration holes are held taught by the outer diameter of bushings while an inner diameter pin shaft of the bushings is used by registration pins during multiple manufacturing process to provide registration of the sheet.

The present invention relates to a lamination process for producing a multilayer laminate which comprises a one or more substrate element(s) and one or more polymeric layer element(s), preferably to a lamination process for producing a photovoltaic (PV) module, and to a PV module laminate.

A glass and polymer film assembly including a glass film and a polymer film bonded to a surface of the glass film. The polymer film is directly bonded to the glass film by applying the polymer to the glass film when the glass film is above a bonding temperature of the polymer film. The glass film may have a thickness less than about 1 mm and the polymer film may be an oriented semicrystalline homopolymer which is permanently bonded to a major surface of the glass film.

Systems and methods of applying a screen protector to a surface, including aligning a first mating surface with a second mating surface within a chamber, creating a vacuum within the chamber, inflating an airbag arranged within the chamber, contacting the first mating surface with the airbag, inflating the airbag to extend towards the perimeter of the first mating surface and second mating surface, and removing all air trapped between the first mating surface and the second mating surface.