A forming station for a thermoform packaging machine, wherein the forming station comprises a forming tool upper part and a forming tool lower part that are each configured for cooperating so as to thermoform a film positioned between the forming tool lower part and the forming tool upper part. The forming station includes a first change bar that is adapted to be releasably attached to a reception area of the forming tool lower part and the first change bar carries a plurality of punches or blades.

A composite article assembly arrangement includes an all-in-one assembly station for supporting certain two-workpiece or composite article assembly methodologies with a view toward a preferred lid assembly application. The all-in-one assembly station includes a stationary main base plate, opposed intermediate compactor plates, and opposed outer plates, which compactor plates and outer plates are movable relative to the stationary main base plate. One or more continuous webs bearing thermoformed first and second workpieces are directed through the assembly station, which assembly station operates to both separate the first and second workpieces from the web(s) as directed therethrough and assemble the first and second workpieces in one clapping movement of the compactor plates and outer plates relative to the main base plate. The main base plate comprises an axial alignment chamber or cavity that operates to mechanically or structurally maintain axial alignment of the first and second workpieces during workpiece assembly.

A preform charge is formed by forming an assemblage of preforms, wherein preforms in the assemblage are bonded to a neighboring preform such that the preform charge effectively becomes a single unit. The preform charge can then be added to a mold to fabricate a part via compression molding.

A vacuum insulated structure includes a multi-layer sheet of material comprising at least one layer of barrier material that is disposed between first and second outer layers. The barrier material and the first and second outer layers comprise thermoplastic polymers or elastomeric or hybrid material systems. The multi-layer sheet of material is thermoformed or vacuum formed to form a non-planar first component having a central portion and four sidewalls extending transversely from the central portion. A second component having a central portion and four sidewalls extending transversely from the central portion is secured to the first component to form an interior space therebetween. Porous filler material is positioned in the interior space, and a vacuum is formed in the interior space by removing gasses and moisture (water vapor). The first and second components are sealed together to form a vacuum insulated structure.

A method of forming a vacuum insulated structure includes providing a multi-layer sheet of material comprising at least one layer of barrier material that is disposed between first and second outer layers. The barrier material and the first and second outer layers comprise thermoplastic polymers. The multi-layer sheet of material is thermoformed to form a non-planar first component. The first component is at least partially coated utilizing a plasma polymerization process or a physical vapor deposition process to improve the barrier properties of the first component. The method further includes securing a second component to the first component to form an interior space therebetween. Porous filler material is positioned in the interior space, and a vacuum is formed in the interior space.

Molds for forming fiber reinforced insulation and methods of using the molds are described. One exemplary mold may include an upper mold and a lower mold. The upper mold and the lower mold may be coupleable to define a mold cavity for receiving therein a fiber reinforced insulation preform. The upper mold may include a plurality of apertures that may be configured to allow moisture from the fiber reinforced insulation preform to pass through the upper mold while substantially preventing fibers from the fiber reinforced insulation preform from passing through the upper mold such that the fiber reinforced insulation preform dries and cures to form the fiber reinforced insulation product. The plurality of apertures may collectively define an open area of at least 20% of an inner surface area of the upper mold that may contact the fiber reinforced insulation preform.

A method of producing a laminated article comprising placing a first metal skin, a core, and a second metal skin freely onto each other as discrete layers to provide a layered component; and forming the layered component into a shaped article via a die prior to producing a laminated article by applying pressure and heat to the shaped article, wherein at least the first skin moves relative to the core and/or second skin during the forming.

The technology provides for a cushion assembly or a tool for forming the cushion assembly for a patient interface delivery of a supply of pressurised air or breathable gas to an entrance of a patient's airways. The cushion assembly has an inferior surface and a mask connection portion, and includes a pad arranged on the inferior surface for sealingly contacting a wearer's face in use.

A composite material component manufacturing method including a first thermoforming step for creating a first three-dimensional prepreg sheet by thermoforming a thermoplastic first prepreg sheet into a three dimensional shape, a laminate body creating step for creating a prepreg sheet laminate body by layering the first three-dimensional prepreg sheet and a second prepreg sheet; and a laminate body molding step for molding the prepreg sheet laminate body by applying heat and a pressing force to the prepreg sheet laminate body with a pressing device.

A thermoforming system and related methods for manufacturing thermoplastic parts, such as interior panels for aircraft, may include a roll-to-roll operation and a forming press having at least one selectively rotatable tool. The rotatable tool, which may include a mold and/or a die, may be multifaceted, such that different faces of the tool have different mold arrangements for different forming characteristics.