A system is for making a molded article made of foamed material, including a die (1) composed of an upper section (11) and a lower section (12), separable and coupled to define a recess. A first suction (20) creates a vacuum to allow shaping a plastic film on the wall of a portion of the recess of the sections (11) and (12). A tensioner and lock (30) of the plastic film allow positioning and fastening the plastic film outside the recess.

A system is for making a molded article made of foamed material, including a die (1) composed of an upper section (11) and a lower section (12), separable and coupled to define a recess. A first suction (20) creates a vacuum to allow shaping a plastic film on the wall of a portion of the recess of the sections (11) and (12). A tensioner and lock (30) of the plastic film allow positioning and fastening the plastic film outside the recess.

A disclosed process includes steps of heating a foamed material by irradiation with near infrared radiation having a wavelength between 0.78 and 1.40 m to form a heated material, forming the heated material with a forming tool to obtain a formed material, and cooling the formed material and demolding to obtain a final workpiece. The foamed material may be constructed as a composite ply construction including an outer material and a foamed core between the outer material. The foamed material may contain a poly(meth)acrylimde, a polypropylene or a highly-crosslinked polyurethane.

Method of forming, in particular a thermoforming method, a foil into a container, in particular a brewing container, especially a coffee capsule, using a plug assist and/or pressure difference in axial main forming direction, directing the foil into a forming tool creating a blank with a cavity and pressing the foil towards the forming tool bottom in order to create a floor for the blank and characterising the method in that the floor of the blank experiences a material distribution, especially a material shifting and/or material compression, during which a constant pressure difference within the blank's cavity is guaranteed and a circumferential annular gap is created.

Method of forming, in particular a thermoforming method, a foil into a container, in particular a brewing container, especially a coffee capsule, using a plug assist and/or pressure difference in axial main forming direction, directing the foil into a forming tool creating a blank with a cavity and pressing the foil towards the forming tool bottom in order to create a floor for the blank and characterising the method in that the floor of the blank experiences a material distribution, especially a material shifting and/or material compression, during which a constant pressure difference within the blank's cavity is guaranteed and a circumferential annular gap is created.

The method of the present invention for producing a shaped film includes a step of arranging a thermoplastic resin film to divide a space into a first space located on one surface side of the film, and a second space located on the other surface side, a step of heating the thermoplastic resin film, a step of curving the thermoplastic resin film in one space by using a difference in pressure between the first space and the second space, a step of stopping the curving step of the thermoplastic resin film in a state where at least a convex curved surface of both surfaces of the film is exposed into the space, and a step of cooling the curved film.

Cup or cartridge that is deep-drawn from a plastic film or a plastic cutout has a bottom and a circumferential wall, wherein the deep-drawing contour ensures a predetermined material distribution. A reinforcement, in terms of design, may be provided at the transition between the bottom and the wall. The transition between the bottom and the wall may have an approximately identical or greater material thickness than the bottom or the wall or than both the bottom and the wall.

Cup or cartridge that is deep-drawn from a plastic film or a plastic cutout has a bottom and a circumferential wall, wherein the deep-drawing contour ensures a predetermined material distribution. A reinforcement, in terms of design, may be provided at the transition between the bottom and the wall. The transition between the bottom and the wall may have an approximately identical or greater material thickness than the bottom or the wall or than both the bottom and the wall.

A method of fabricating a vacuum insulated appliance structure includes molding a first layer of a first polymer material. A second layer of a second polymer material is molded to (e.g. over) at least a portion of the first layer, and a third layer of a third polymer material is molded to (e.g. over) at least a portion of the second layer to form a first component. At least one of the layers is impervious to one or more gasses. One or more additional components are secured to the first component to form a vacuum cavity. The vacuum cavity is filled with a porous material, and the vacuum cavity is evacuated to form a vacuum.

A method of fabricating a vacuum insulated appliance structure includes molding a first layer of a first polymer material. A second layer of a second polymer material is molded to (e.g. over) at least a portion of the first layer, and a third layer of a third polymer material is molded to (e.g. over) at least a portion of the second layer to form a first component. At least one of the layers is impervious to one or more gasses. One or more additional components are secured to the first component to form a vacuum cavity. The vacuum cavity is filled with a porous material, and the vacuum cavity is evacuated to form a vacuum.