An attachment apparatus and an attachment method for a curved display panel are provided. The attachment apparatus includes: a holding component for holding a cover glass in a curved state; a supporting component disposed under the holding component, and the supporting component including: a first mobile part and a second mobile part disposed opposite to each other, and a supporting part.

A multi-layered composite body, having an UV-cured cover layer (1) forming the surface and having a layer thickness of 1-20 μm, which has the following characteristics: a) a gloss loss of at most 30%, preferably at most 20% following a micro-scratch resistance test measured following prEN 16094 (as of 2010 May 15: “Laminate floor coverings—Test method for the determination of micro-scratch resistance”), b) a numerical assessment of ≥3, in a chemical resistance test measured according to DIN EN 12720 (as of July 2009: “Furniture—Assessment of surface resistance to cold liquids”) using acetone as a test liquid for a test duration of 1 h, c) a gloss of at least 80, preferably at least 85 GLE measured according to ISO 2813 (as of 1999 Jun. 1: “Coating materials—Determination of the reflectometer value of coatings at 20°, 600 and 85°”) at an observation angle of 20° and d) a haze of at most 20, preferably at most 15, measured according to ISO 13803 (as of 2004 Sep. 1: “Coating materials—Determination of reflection haze of coatings at 20°); a bending device for the composite body

A method of making a tank for storing fluid that includes generating a resinated braid layer on an elongated liner having a plurality of successively alternating rigid and flexible portions along the length of the liner. Generating the resinated braid layer on the liner includes feeding the liner into a braiding machine and applying resin to a plurality of fibers during a braiding process to generate a resinated plurality of fibers and generating, over a length of the liner, by the braiding machine, the resinated braid layer defined by the resinated plurality of fibers.

A method of making a tank for storing fluid that includes generating a resinated braid layer on an elongated liner having a plurality of successively alternating rigid and flexible portions along the length of the liner. Generating the resinated braid layer on the liner includes feeding the liner into a braiding machine and applying resin to a plurality of fibers during a braiding process to generate a resinated plurality of fibers and generating, over a length of the liner, by the braiding machine, the resinated braid layer defined by the resinated plurality of fibers.

The present invention relates to a method and an apparatus (40, 50) for coating an uneven surface of a workpiece (W), wherein the apparatus (40, 50) comprising a first feeding device (41), through which a coating material (10) applicable to a workpiece (W) is fed, the coating material (10) comprising at least one weakened area (10a), a joining device for the application of the coating material to at least two workpiece sides (W1-W), wherein the at least one weakening area (10a) being positioned in the transition section of the at least two workpiece sides (W1-W2), and a second feeding device (70), through which the workpiece is fed and the transition section of the two workpiece sides (W1, W2) being formed to at least partially fill the weakened area of (10a) of the coating material (10) which is positioned in the transition section during the application of the coating material.

Provided are systems and apparatuses for manufacturing aircraft support structures. An example robotic end effector comprises a rotatable reel with a flat strip of material wound around the reel. The end effector further includes a forming shoe including a forming surface contacting the strip of material. A first end of the forming surface corresponds to a start shape and a second end of the forming surface corresponds to an end shape. As the strip of material passes from the first end of the forming surface to the second end of the forming surface, the strip of material transitions from the first shape to the end shape and is deposited as a formed stringer ply onto an application surface. The forming shoe may further include a vacuum system to suction air through a plurality of ports along the forming surface to urge the strip of material against the forming surface.

A method for manufacturing a coated product for suppressing the occurrence of sagging or cracking at an outer corner curved surface part of a coated product, includes: transporting a laminate in which a decorative material is bonded to a surface of the substrate; heating a bending margin of the decorative material projecting outward from a side surface of the substrate during transport of the laminate; and bending the bending margin heated in the heating step during transport of the laminate in a non-heated state to bond the bending margin to the side surface of the substrate. During heating, the bending margin being heated is bent in a half-folded state toward the side surface of the substrate. During bonding, the bending margin bent in the half-folded state in the heating step is further bent to be bonded to the side surface of the substrate.

A method for manufacturing a coated product for suppressing the occurrence of sagging or cracking at an outer corner curved surface part of a coated product, includes: transporting a laminate in which a decorative material is bonded to a surface of the substrate; heating a bending margin of the decorative material projecting outward from a side surface of the substrate during transport of the laminate; and bending the bending margin heated in the heating step during transport of the laminate in a non-heated state to bond the bending margin to the side surface of the substrate. During heating, the bending margin being heated is bent in a half-folded state toward the side surface of the substrate. During bonding, the bending margin bent in the half-folded state in the heating step is further bent to be bonded to the side surface of the substrate.

A multilayered layered body comprising an evacuated thermal insulation body (12) having a core material (13), which is enclosed by a gas-tight film (16), wherein the thermal insulation body (12) has a first flat side (14) and a second flat side (15), which is arranged opposite of the first side, wherein a lamination layer (17) is laminated onto at least one flat side (14, 15).

A multilayered layered body comprising an evacuated thermal insulation body (12) having a core material (13), which is enclosed by a gas-tight film (16), wherein the thermal insulation body (12) has a first flat side (14) and a second flat side (15), which is arranged opposite of the first side, wherein a lamination layer (17) is laminated onto at least one flat side (14, 15).