It is provided a fiber-reinforced-plastic producing device, a movable stage, a shaped fabric producing method, and a fiber-reinforced-plastic producing method, with which when a fabric is bent in a resin transfer molding method, wrinkles can be prevented from being formed in the vicinity of the bent portion. The fiber-reinforced-plastic producing device includes a molding die having a first placement surface on which a fabric is placed, and a formation surface having a predetermined angle with respect to the first placement surface; and a movable stage having a second placement surface on which an end section of the fabric is placed, and located adjacent to the molding die, wherein the movable stage is configured so as to be movable below the first placement surface after the second placement surface forms a continuous plane with the first placement surface and is inclined with respect to the first placement surface.

It is provided a fiber-reinforced-plastic producing device, a movable stage, a shaped fabric producing method, and a fiber-reinforced-plastic producing method, with which when a fabric is bent in a resin transfer molding method, wrinkles can be prevented from being formed in the vicinity of the bent portion. The fiber-reinforced-plastic producing device includes a molding die having a first placement surface on which a fabric is placed, and a formation surface having a predetermined angle with respect to the first placement surface; and a movable stage having a second placement surface on which an end section of the fabric is placed, and located adjacent to the molding die, wherein the movable stage is configured so as to be movable below the first placement surface after the second placement surface forms a continuous plane with the first placement surface and is inclined with respect to the first placement surface.

The object of the invention is a method of making a wrapping for an elongated object (1). An adhesive tape (2, 3) comprised of a substrate strip (2) and an adhesive coating (3) at least partially covering the substrate strip (2) is combined with an adhesive-free band (4) to form a laminate (2, 3, 4). The substrate strip (2) and the band (4) at least largely overlap, and at the overlap (U), the first adhesive coating (3) is between the substrate strip (2) and the band (4). According to the invention the first adhesive coating (3) at the overlap (U) between the substrate strip (2) and the band (4) is composed of a plurality of spaced adhesive substrips (3).

A method for molding composite material such as a spar formed with a curved corner part is provided with: a first shaping step of shaping a laminate so that the board thickness of the laminate is reduced from the outside of the corner part toward the inside thereof, the laminate having the corner part curved at a first bending angle and comprising fiber sheets laminated to each other; and a second shaping step of curving the corner part of the laminate to form a second bending angle smaller than the first bending angle, and shaping the laminate so that the board thickness of the laminate is reduced from the inside of the corner part toward the outside thereof.

A method for molding composite material such as a spar formed with a curved corner part is provided with: a first shaping step of shaping a laminate so that the board thickness of the laminate is reduced from the outside of the corner part toward the inside thereof, the laminate having the corner part curved at a first bending angle and comprising fiber sheets laminated to each other; and a second shaping step of curving the corner part of the laminate to form a second bending angle smaller than the first bending angle, and shaping the laminate so that the board thickness of the laminate is reduced from the inside of the corner part toward the outside thereof.

A drape forming apparatus for use in forming a composite structure. The apparatus includes a forming tool including an upper forming surface and at least one side forming surface that extends from the upper forming surface. The forming tool receives at least one layer of composite material over the upper forming surface. The apparatus also includes a flange forming device including a tray coplanarly aligned with the upper forming surface when in a first operating position. The tray is configured to receive a flange portion of the at least one layer of composite material. A pressurized bladder extends over the forming tool and the tray. The pressurized bladder is configured to induce a first force against the tray such that the tray rotates about a pivot line, and such that the flange portion is withdrawn from the tray and draped over the at least one side forming surface.

A blanket assembly for forming a composite charge onto a forming mandrel includes upper and lower heating blankets configured to have a composite charge slidable therebetween during translation along the forming mandrel. The blanket assembly has a pair of wedge elements with tapered sections that are each positionable between the lower heating blanket and the mandrel side surfaces. The wedge element top sides are inclined from the tapered section forward end to the tapered section aft end. The upper heating blanket exerts a blanket forming pressure for progressively forming the composite charge into the cross-sectional shape of the forming mandrel collectively defined by the mandrel side surfaces and wedge element top sides as the composite charge passes over the tapered sections of the blanket assembly. The wedge element top sides maintain the laterally outboard portions of the composite charge in approximately parallel relation to a level tangent to the mandrel top portion.

A blanket assembly for forming a composite charge onto a forming mandrel includes upper and lower heating blankets configured to have a composite charge slidable therebetween during translation along the forming mandrel. The blanket assembly has a pair of wedge elements with tapered sections that are each positionable between the lower heating blanket and the mandrel side surfaces. The wedge element top sides are inclined from the tapered section forward end to the tapered section aft end. The upper heating blanket exerts a blanket forming pressure for progressively forming the composite charge into the cross-sectional shape of the forming mandrel collectively defined by the mandrel side surfaces and wedge element top sides as the composite charge passes over the tapered sections of the blanket assembly. The wedge element top sides maintain the laterally outboard portions of the composite charge in approximately parallel relation to a level tangent to the mandrel top portion.

Disclosed is a method for manufacturing a secondary battery.

According to the present invention, a problem of weakening durability of a pouch, which may occur in a process of forming cups having different depths in the pouch may be solved.

Disclosed is a method for manufacturing a secondary battery.

According to the present invention, a problem of weakening durability of a pouch, which may occur in a process of forming cups having different depths in the pouch may be solved.