A method for use in ply compaction in forming a composite structure. The method includes positioning a ply of material on a forming tool having a web surface and at least one flange surface extending from the web surface, positioning a chassis at a first location along a length dimension of the forming tool, selectively rotating a flange forming device, that is coupled to the chassis, about a yaw axis based on a relative orientation of the flange forming device to the at least one flange surface, applying, with the flange forming device, the ply of material onto the forming tool, moving the chassis relative to the forming tool to position the chassis at a second location along the length dimension of the forming tool, and repeating the selective rotation and the application steps at the second location.

A composite laminate stiffener is formed to contour with reduced ply wrinkling using constrained creep forming. The tooling apparatus is provided with flexible cauls which constrain the stiffener during the contour forming process. The creep forming is carried out at a slow enough rate so that friction or shear resistance between the resin and fibers of the plies remains low enough that slippage can occur and significant compression stresses are not generated rate, allowing relaxation of residual stresses in the stiffener.

A method for manufacturing a cellular structure having first and second faces, rows of cells each alternatingly having first cells, which are open in the direction of the first face, second cells, which are open in the direction of the second face, and also third cells formed between each row of cells, each row of cells comprising first and second strips of material placed against one another. The first and second strips of material are shaped by bending. By contrast to plastic deformation, shaping by bending makes it possible to expand the choice of materials and thicknesses for the first and second strips of material. An advantageous cellular structure is thus obtained as well as an acoustic absorption coating comprising such a cellular structure.

A method for bending a vinyl floor plank to form a stair nose plank. A first bending gap is established between two blending blocks and a second bend gap is established between two second bending blocks. Heat is applied to a vinyl floor plank along a first bend location. The vinyl floor plank is then placed into the first bend gap. A user presses downward on the vinyl floor plank to form a first right angle bend. Heat is applied to a vinyl floor plank along a second bend location. The vinyl floor plank is then placed into the second bend gap. The user presses downward on the vinyl floor plank to form a second right angle bend. The first right angle bend and the second right angle bend combine to form a U-shaped bend to form a stair nose plank. In a preferred embodiment the stair nose plank includes a locking mechanism along its edges. In a preferred embodiment heat is applied by utilization of an acrylic bending machine.

A method for bending a vinyl floor plank to form a stair nose plank. A first bending gap is established between two blending blocks and a second bend gap is established between two second bending blocks. Heat is applied to a vinyl floor plank along a first bend location. The vinyl floor plank is then placed into the first bend gap. A user presses downward on the vinyl floor plank to form a first right angle bend. Heat is applied to a vinyl floor plank along a second bend location. The vinyl floor plank is then placed into the second bend gap. The user presses downward on the vinyl floor plank to form a second right angle bend. The first right angle bend and the second right angle bend combine to form a U-shaped bend to form a stair nose plank. In a preferred embodiment the stair nose plank includes a locking mechanism along its edges. In a preferred embodiment heat is applied by utilization of an acrylic bending machine.

A method for producing clad duct from a laminate is disclosed. The laminate is a sheet of thermoplastic material bonded to an insulative foam board. V-shaped grooves are formed in the foam board, opposite the sheet. The sheet is heated in the vicinity of one of the grooves, until pliable. The sheet is then bent, where it has become pliable, to close the groove. The heated and bent sheet is then cooled until it is no longer pliable and retains its bent shape. The heating, bending, and cooling steps are repeated for the other grooves until edges of the laminate are brought together. The edges are then sealed.

An apparatus for manufacturing a pouch includes a die in which a pair of forming grooves are formed with a partition wall therebetween in a top surface thereof; and a pair of punches disposed above the die configured to form a pair of accommodation parts in a pouch film while being respectively inserted into the pair of forming grooves in a state of pressing the pouch film, wherein a pressing surface of each of the punches, which is configured to press the pouch film, has an inclined angle that is inclined upward from one end thereof disposed at a side of the partition wall toward an opposite end thereof.

A method for bending a vinyl floor plank to form a stair nose plank. A first bending gap and a second bending gap are established. Heat is applied to a vinyl floor plank along a first bend location. The vinyl floor plank is then placed into the first bend gap. A user presses downward on the vinyl floor plank to form a first right angle bend. Heat is applied to a vinyl floor plank along a second bend location. The vinyl floor plank is then placed into the second bend gap. The user presses downward on the vinyl floor plank to form a second right angle bend. The first right angle bend and the second right angle bend combine to form a U-shaped bend to form a stair nose plank. In a preferred embodiment the stair nose plank includes a locking mechanism along its edges. In a preferred embodiment, the first bending gap is established between two blending blocks and the second bend gap is established between two second bending blocks. In a preferred embodiment heat is applied by utilization of an acrylic bending machine.

A method for bending a vinyl floor plank to form a stair nose plank. A first bending gap and a second bending gap are established. Heat is applied to a vinyl floor plank along a first bend location. The vinyl floor plank is then placed into the first bend gap. A user presses downward on the vinyl floor plank to form a first right angle bend. Heat is applied to a vinyl floor plank along a second bend location. The vinyl floor plank is then placed into the second bend gap. The user presses downward on the vinyl floor plank to form a second right angle bend. The first right angle bend and the second right angle bend combine to form a U-shaped bend to form a stair nose plank. In a preferred embodiment the stair nose plank includes a locking mechanism along its edges. In a preferred embodiment, the first bending gap is established between two blending blocks and the second bend gap is established between two second bending blocks. In a preferred embodiment heat is applied by utilization of an acrylic bending machine.

A method of making a tube (60) includes forming at least one tube layer (101, 106, 108); and forming at least one film layer (102, 103, 104) on the at least one tube layer, wherein the at least a portion of the at least one film layer does not completely overlap the at least one tube layer.