The present disclosure is directed to a method for creating a vacuum forming mold assembly. The method includes forming a plurality of support plates. Each support plate includes a surface defining a shape corresponding to a cross-section of at least a portion of the mold cavity. The method also includes removably coupling a mold body to the plurality of support plates to form the mold assembly. The mold body conforms to the shape of the surface of each support plate after being removably coupled to the plurality of support plates such that the mold body defines at least a portion of a mold cavity of the mold assembly. The mold body defines at least one of one or more vacuum manifolds or one or more fluid passages.

A thermoforming in-lay technique is discussed that uses retractable pins to hold an in-lay piece securely in place in a primary mold. The in-lay piece is fabricated prior to the primary molding process and creates multiple pin receivers in the in-lay that are retractably engaged by the retractable pins when placed into the primary mold. When the primary substrate is formed into the primary mold, the retractable pins prevent the in-lay piece from moving out of position. Once the primary substrate has cooled sufficiently, the pins are retracted allowing the finished primary carrier art to be removed from the primary mold.

A thermoformed article that is formed from a polymeric sheet having a thickness of from about 0.1 to about 100 millimeters is provided. The polymeric sheet contains a thermoplastic composition that includes a continuous phase that includes a matrix polymer. A microinclusion additive and nanoinclusion additive are dispersed within the continuous phase in the form of discrete domains, and a porous network is defined in the composition that includes a plurality of nanopores having an average cross-sectional dimension of about 800 nanometers or less.

A thermoformed article that is formed from a polymeric sheet having a thickness of from about 0.1 to about 100 millimeters is provided. The polymeric sheet contains a thermoplastic composition that includes a continuous phase that includes a matrix polymer. A microinclusion additive and nanoinclusion additive are dispersed within the continuous phase in the form of discrete domains, and a porous network is defined in the composition that includes a plurality of nanopores having an average cross-sectional dimension of about 800 nanometers or less.

A fabric-based item may be vacuum-formed into a three-dimensional shape. The fabric-based item may include one or more layers of fabric and one more polymer layers that can be molded when heated. To vacuum-form the fabric-based item into a three-dimensional shape, the fabric based item may be heated until the polymer layer reaches a forming temperature and becomes soft and pliable. When heated, a vacuum tool is used to pull the fabric-based item onto a mold so that the fabric-based item conforms to the shape of the mold. As the fabric-based item cools on the mold, the polymer material hardens into the shape imparted by the mold. The polymer material is able to hold the fabric layers in this shape after the layers are removed from the mold.

The present invention is directed to a system for thermoforming a batch of dental appliances simultaneously. An embodiment of the invention includes a vacuum plate having an upper surface and a plurality of cups for receiving dental models. A polymer sheet extends over the upper surface of the vacuum plate and over the cups. A heater cap that is movable in proximity to the cups is provided to heat the polymer sheet to be formed onto the dental models. The vacuum plate is configured to create a vacuum seal between an upper edge of the cups and the polymer sheet. A vacuum source is provided to apply a vacuum to the cups below the polymer sheet wherein the pressure contained in said cups is lower than atmospheric pressure whereby at least a portion of the polymer sheet is drawn into each of the cups and drawn over the dental models to form an aligner over each of the dental models. The invention includes the process of drawing a vacuum in a series of steps, or phases, to the cups below the polymer sheet to form the polymer effectively around the dental model.

The present invention is directed to a system for thermoforming a batch of dental appliances simultaneously. An embodiment of the invention includes a vacuum plate having an upper surface and a plurality of cups for receiving dental models. A polymer sheet extends over the upper surface of the vacuum plate and over the cups. A heater cap that is movable in proximity to the cups is provided to heat the polymer sheet to be formed onto the dental models. The vacuum plate is configured to create a vacuum seal between an upper edge of the cups and the polymer sheet. A vacuum source is provided to apply a vacuum to the cups below the polymer sheet wherein the pressure contained in said cups is lower than atmospheric pressure whereby at least a portion of the polymer sheet is drawn into each of the cups and drawn over the dental models to form an aligner over each of the dental models. The invention includes the process of drawing a vacuum in a series of steps, or phases, to the cups below the polymer sheet to form the polymer effectively around the dental model.

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 manhole base liner (1), in particular for a wastewater manhole, has a base body (2) which comprises a tread surface (3) and at least one pipe connection opening (5). The base body (2) is produced in one piece from flexible material with a wall thickness, with which it can be bent together substantially arbitrarily in at least partial regions.