A wire mesh layer, including warp wires and weft wires, wherein the warp wires and the weft wires form woven meshes and open up a woven surface. A connecting member is provided, which includes a thermoplastic material. The multilayered product is provided having such a wire mesh layer and a further layer, wherein the wire mesh layer and the further layer are connected by the thermally deformed connecting member. In a method of manufacturing such a multilayered product, the wire mesh layer and the further layer are placed on top of one another in a predetermined orientation. Due to the thermal deformation of the thermoplastic material of the connecting member, the wire mesh layer and the further layer will be interconnected.

A method for efficiently obtaining a raised sheet as a sheet for cleaning that has raised cleaning portions and effectively collects dust is described. Manufacturing a raised sheet can include stacking a base material sheet and fiber aggregate, applying a load to fibers of the fiber aggregate under an unheated state, forming joining portions by partially joining the fiber aggregate and the base material sheet, forming a fiber bundle joined to the base material sheet in the joining portions by cutting the fiber aggregate at portions where the fiber aggregate and the base material sheet are not joined, and raising fibers by injecting fluid to the fiber bundle.

A protective member forming apparatus for forming a protective member on the top surface of a substrate by laminating a liquid resin and a cover sheet on a resin film includes: a liquid resin supply unit configured to supply the liquid resin onto the resin film; a pressing unit including a pressing surface, the pressing unit being configured to spread the liquid resin over the resin film by pressing the liquid resin by the pressing surface via the cover sheet; and a determining unit configured to determine the state of the spread liquid resin. The determining unit includes a determining section configured to determine whether or not the liquid resin is spread over a predetermined range with respect to the substrate.

A treated liquid crystal polymer resin sheet includes a main surface, a non-fiberized portion in which fibrous crystalline portions and a non-crystalline portion filling a gap between the crystalline portions are provided, and a fiberized portion in which the fibrous crystalline portions is exposed at the main surface with a gap between the crystalline portions that is unfilled.

Provided is a method of producing a layered article by which a sufficient production speed can be achieved, and preferably, a variation in fusion strength can be suppressed and hence a variation in product quality can be reduced. The method of producing a layered article of the present invention includes fusing at least part of a single-layer body or a laminate including at least one layer including a non-woven fabric of fiber having a fiber diameter of 100 m or less through ultrasonic welding.

The present disclosure relates to a monobloc tool for the production of laminated molded parts. The tool includes an effective surface area facing the molded part to be laminated, a usable surface area facing a tool holder for securing the tool 1, at least one fluid duct 4 passing through without kinks and arranged in the interior near the face of the effective surface area, and at least one cavity arranged between the fluid duct and the usable surface area.

A card substrate laminating device including a transfer roller configured to heat a portion of a transfer layer of a transfer ribbon and transfer the portion of the transfer layer from a carrier layer of the transfer ribbon to a surface of a card substrate. The transfer roller includes a diameter of less than 0.537 inches and a compliant exterior surface layer or coating. The compliant exterior surface layer or coating can include silicon rubber. The compliant exterior surface layer or coating can be approximately 0.020 inches thick. An internal heating element is configured to heat the transfer roller from an ambient temperature to a laminating temperature, at which laminating operations are performed, within 40 seconds.

A card substrate laminating device includes a transfer ribbon and a transfer roller. The transfer ribbon includes a carrier layer and a transfer layer attached to the carrier layer. The transfer roller is configured to heat and transfer a portion of the transfer layer from the carrier layer to a surface of a card substrate. The transfer roller has a circumference that is less than one-half of a length of the card substrate.

A vacuum insulation panel manufacturing method that makes it possible to manufacture low-cost, high-performance vacuum insulation panels, and a vacuum insulation panel are provided. This method of manufacturing a vacuum insulation panel (1) involves: a stacking step in which a first metal plate (20) is overlaid on one side of a thermally insulating core material (10), and in which a backing member (50) having an opening (51) and a second metal plate (30) having an exhaust port (32) are placed, with the opening (51) and the exhaust port (32) overlapping, overlaid on each other on the other surface of the core member (10) in the order of backing member (50) and second metal plate (30) from the core member (10) side; a first welding step for welding outwards of where the core member (10) is disposed in the first metal plate (20) and the second metal plate (30); a vacuum creating step for evacuating air from the exhaust pert (32) to create a vacuum in an inner area which is held between the first metal plate (20) and the second metal plate (30) and in which the core member (10) is arranged; and a laser welding step in which, in a state in which the inner area is made into a vacuum by the vacuum creating step, the exhaust port (32) is sealed by means of a sealing material (60) and the sealing material (60), the second metal plate (30) and the backing member (50) are laser welded.

A system for ultrasonic bonding of elastic includes a rotating roll. The rotating roll has an exterior surface. A removable shell layer is attached to the external surface. The removable shell layer includes one or more patterned segments. The patterned segments include a shell channels formed through the removable shell layer to form a pattern.