Systems and processes for thermoforming an article are disclosed. The system can include a first heating station that can include a first heating zone and a second heating zone. The system can further include a first cooling station for reducing the temperature of the heated article to a range of about 50 C. to about 70 C. while exposing the article to atmospheric pressure. The system can also include a second cooling station that can expose an article to a pressure above atmospheric pressure.

Systems and methods for providing heat to a three-dimensional article are disclosed. The method can include inserting at least a portion of the article over a form. The method can further include inserting the form and article at least partially within an article container and moving the form and article into engagement with a flexible membrane where the membrane and the article container form an airtight chamber. The method can further include exposing the airtight chamber to a pressure less than atmospheric pressure to pull the membrane against at least a portion of the article and exposing the membrane to a heated deformable media.

Systems and methods for providing heat to a three-dimensional article are disclosed. The method can include inserting at least a portion of the article over a form. The method can further include inserting the form and article at least partially within an article container and moving the form and article into engagement with a flexible membrane where the membrane and the article container form an airtight chamber. The method can further include exposing the airtight chamber to a pressure less than atmospheric pressure to pull the membrane against at least a portion of the article and exposing the membrane to a heated deformable media.

A system for thermoforming an object is provided. The system includes a mold and a pressure-box. The mold has a surface that defines a shape of the object and includes two or more portions of differing porosities. The pressure-box is operative to generate a pressure differential across the surface. The two or more portions apply the pressure differential at different loads, based at least in part on the differing porosities, to a material disposed onto the surface so as to form the object by deforming the material into the shape.

A system for thermoforming an object is provided. The system includes a mold and a pressure-box. The mold has a surface that defines a shape of the object and includes two or more portions of differing porosities. The pressure-box is operative to generate a pressure differential across the surface. The two or more portions apply the pressure differential at different loads, based at least in part on the differing porosities, to a material disposed onto the surface so as to form the object by deforming the material into the shape.

A method for manufacturing an automotive interior component may include providing a cover, a substrate, a chute connected to the substrate, heating the cover, forming the cover via a negative vacuum forming tool, and supporting the substrate and chute via a buck. The method may include moving at least of the negative vacuum forming tool and the buck toward the other of the negative vacuum forming tool and the buck such that the cover and the substrate may be in contact with each other. The method may include bonding the substrate with the cover via providing pressurized fluid to a chamber of the buck to force the substrate toward the cover. The chamber may be defined by the buck and the substrate.

A method for manufacturing an automotive interior component may include providing a cover, a substrate, a chute connected to the substrate, heating the cover, forming the cover via a negative vacuum forming tool, and supporting the substrate and chute via a buck. The method may include moving at least of the negative vacuum forming tool and the buck toward the other of the negative vacuum forming tool and the buck such that the cover and the substrate may be in contact with each other. The method may include bonding the substrate with the cover via providing pressurized fluid to a chamber of the buck to force the substrate toward the cover. The chamber may be defined by the buck and the substrate.

A re-closable packaging assembly includes a container formed at least partially by a first film, and the container has a plurality of walls that cooperate to define an interior volume. The container has an opening through at least one of the plurality of walls. A closure assembly is secured to the container adjacent the opening and comprises a second film and a portion of the first film. The closure assembly includes a lid member pivotable about a hinge portion between a first position in which the lid member releasably engages the container surrounding the opening and a second position in which the lid member is pivoted away from the opening. A first engagement feature may be disposed on the container and a second engagement feature may be disposed on the lid member to removably secure the lid member to the container when the lid member is in the first position.

A method for molding a composite material in which a curved corner is formed between two planes by using a molding jig includes: shaping a laminated body in such a manner that a thickness of the laminated body is decreased from an outer side toward an inner side of the corner, by using the molding jig in which the angle formed by the two planes is a first bending angle, the laminated body including fiber sheets laminated so as to have the corner curved at the first bending angle; and shaping the laminated body in such a manner that the thickness is decreased from the outer side toward the inner side by curving the corner so as to form a second bending angle, by using the molding jig in which the angle formed by the two planes is the second bending angle smaller than the first bending angle.

An arrangement for producing a composite material component comprises a bagging configured to seal a receiving space for a semi-finished part against the ambient atmosphere. The bagging is a thermoformed bagging having a shape which, at least in sections, corresponds to a shape of the semi-finished part and which comprises an air-tight outer layer and an inner separation layer. The inner separation layer is configured to allow the bagging to be separated from the composite material component made from the semi-finished part. The arrangement further comprises a vacuum source connected to the receiving space and configured to generate a reduced pressure within the receiving space. The arrangement also comprises a curing apparatus configured to cure a thermoset plastic material either contained in at least one element of the semi-finished part or injected into the receiving space when the semi-finished part is sealed within the receiving space via the bagging.