A heating apparatus for heating a reinforcing layer of a composite material structure is disclosed. The heating apparatus includes a housing having a base and a housing body defining a housing interior space. A radiant heating assembly is disposed within the housing and configured to transfer radiant heat to the reinforcing layer. Additionally, a convection heating assembly is formed within the housing including at least one convection assembly gas passage. The heating apparatus further includes a convection assembly gas outlet coupled to the convection assembly gas passage and a convection assembly gas flows from the convection assembly gas outlet. The convection assembly gas flows along to heat the convection assembly gas. The heating apparatus further includes a redirection gas passage coupled to a redirection nozzle formed at a convection heat application point. A redirection gas flows from the redirection nozzle to direct the convection assembly gas towards the reinforcing layer.

A method of decommissioning a solar module installation including a plurality of solar modules includes selecting a first solar module of the plurality of solar modules, the first solar module including a plurality of solar cells, a front layer, a back sheet, a first layer of encapsulant between the front layer and the plurality of solar cells, and a second layer of encapsulant between the back sheet and the plurality of solar cells. The method further includes applying X-ray radiation to the first solar module to debond at least one of the first layer of encapsulant or the second layer of encapsulant; and separating at least one of the front layer or the back sheet from the plurality of solar cells.

A device and a method allow for adhering sealing tape to open end of a multilayer sheet, usable at the production line and at the installation site. The device comprise means for applying pressure and heat onto the sealing tape and cutting blades for removing protruding edges of the sealing tape after it was adhered. The method comprise providing of a sealing tape, attaching and adhering the sealing tape to an open end of a multi-wall sheet by means of heat and/or pressure and adhesive and removal of protruding edges using cutting blades.

A shielding pattern embedded type window film includes a base film, a first hard coating layer and a second hard coating layer which are sequentially laminated on one surface of the base film, and a shielding pattern disposed at an outer area between the first hard coating layer and the second hard coating layer.

The present invention is directed to a gypsum panel and a method of making such gypsum panel. For instance, in one embodiment, the gypsum panel comprises a gypsum core and a first facing material and a second facing material sandwiching the gypsum core, wherein the gypsum core includes gypsum and one or more magnetic additives. The methods of the present invention are directed to making the aforementioned gypsum panels by providing the first facing material, providing a gypsum slurry comprising gypsum, water, and one or more magnetic additives onto the first facing material, and providing a second facing material on the gypsum slurry.

A manufacturing method of an electronic device includes a first stacking process of forming a first photosensitive adhesive on a surface on a second substrate side in a first substrate; and a second stacking process of forming a second photosensitive adhesive, which overlaps the first photosensitive adhesive, having a lower degree of cure than that of the first photosensitive adhesive; and a bonding process of bonding together the first substrate and the second substrate by curing the second photosensitive adhesive by heating, in a state in which the first photosensitive adhesive and the second photosensitive adhesive are interposed between the first substrate and the second substrate.

A method of preparing a laminate, in which the laminate has a substrate and a support plate, and is provided with a release layer capable of being altered by irradiation with infrared ray, the method including forming the release layer on only a periphery of one of the substrate and the support plate; and laminating the substrate and the support plate through the release layer and a first adhesive layer.

A print on-demand color shift material which has high reflection, high saturation color and intrinsic, high impact color-shift produced by thermal printing or laser writing for use, for example in security laminates, tax and excise stamps, machine-readable features and banknote foils, and offering a rainbow of colors with full color shifting, producible in full manufacturing scale.

A process for laminating a material layer to a support including: providing the support, applying the material layer to the support, a heat-activatable adhesive being applied to s side of the material layer facing the dimensionally stable support and/or to the side of the dimensionally stable support facing the material layer, pressing the flexible material layer and the dimensionally stable support together by means of a lower dimensionally stable mold half and an upper dimensionally stable mold half, irradiating the mold halves, the support and the material layer with electromagnetic radiation, in particular with microwave radiation, high-frequency radiation or induction radiation, whereby the adhesive is activated directly or indirectly.

The present invention relates to a method for manufacturing a single-faced thin polarizing plate, including: supplying a process film to one surface of a polarizer having a thickness of 50 m or less; supplying a protection film to the other surface of the polarizer; forming an adhesive layer by supplying an adhesive composition between the polarizer and the protection film; pressing a laminate of the process film/the polarizer/the protection film by disposing a pair of pressing units on a surface of each of the process film and the protection film; and stripping the process film, in which stripping force between the polarizer and the process film is 1.0 N or less.