Disclosed is a multilayered container having an intermediate layer comprising an oxygen-absorbable barrier resin composition showing excellent processability upon molding. Specifically disclosed is a multilayered container which comprises an inner layer and an outer layer each comprising an olefin resin and an intermediate layer provided between the inner layer and the outer layer and comprising an oxygen-absorbable barrier resin composition, wherein the oxygen-absorbable barrier resin composition has a cooling crystallization peak temperature lower than that of a base resin (an oxygen barrier resin) which constitutes the oxygen-absorbable barrier resin composition, the multilayered container is formed by a solid-phase-forming process at a temperature lower by 1 to 15? C. than the cooling crystallization starting temperature (Tc2) of the base resin, and the body of the container shows a calorific value of less than 0.5 J/g by the isothermal crystallization after heating from 30? C. to 130? C. at a heating rate of 100? C./min in a thermal analysis of the body.

A dental appliance manufacturing system includes a plate. Molds of dental arches are to be positioned on the plate. The dental appliance manufacturing system further includes a heating section configured to be adjusted based on the molds positioned on the plate. The heating section is configured to heat one or more sheets of plastic to generate one or more heated sheets. The dental appliance manufacturing system further includes a thermoforming chamber configured to simultaneously thermoform the one or more heated sheets over the molds positioned on the plate to form a plurality of dental appliances.

Provided is a method for extruding molten resin in a charging space from a head by converting a rotational motion of an electric motor into a linear motion of a piston disposed in the charging space through a ball screw and thus causing the piston to move vertically, the charging space being a space into which the molten resin can be charged and formed in an accumulator, the head having an extrusion port at a lower end thereof. The method includes a step of separating an upper plate from a lower plate and retracting the upper plate upward by a rotational motion of the electric motor and then charging the molten resin into the charging space with a sufficient charging pressure to push up the piston against weights of the lower plate and the piston in the charging space, the lower plate being disposed over the accumulator and coupled to the piston from above, the upper plate being engaged with the electric motor through a screwing relationship and disposed over the lower plate so as to be able to surface-contact the lower plate and a step of extruding the molten resin from the extrusion port by moving the upper plate downward with the upper plate and the lower plate surface-contacting each other by a rotational motion of the electric motor and thus moving the piston downward in the charging space.

An advanced thermoplastic orthodontic retainer is disclosed. The prior art includes a clear piece of thermoplastic material of uniform thickness which is then heated to a soft state and adapted to a stone model of a patient's teeth. The present invention incorporates a gradient of thickness of the plastic running from one end to the other. This gradient will exist in the final retainer, and it will take into account the normal pattern of opening and closing of the jaw during which the posterior segment is open less than the anterior segment when the teeth are close to contacting. The present invention retains the ease of fabrication, low cost, and aesthetics of the currently prescribed removable appliance while improving the durability and functionality. Dentists and orthodontists can use the present invention to prevent the unwanted side effects of the prior art including but not limited to posterior open-bites.

A tooling system for fabricating a composite structure comprising a printed thermoplastic material tooling component having a non-tooling surface and a tooling surface, wherein the tooling surface defines a predetermined shape for the composite structure. The tooling system may further comprise a printed thermoplastic material tooling base structure having a plurality of non-tooling surfaces to support the printed thermoplastic material tooling component during layup or cure. The printed thermoplastic material tooling base structure may employ a support structure, such as a honeycomb support structure or a filler material.

A tooling system for fabricating a composite structure comprising a printed thermoplastic material tooling component having a non-tooling surface and a tooling surface, wherein the tooling surface defines a predetermined shape for the composite structure. The tooling system may further comprise a printed thermoplastic material tooling base structure having a plurality of non-tooling surfaces to support the printed thermoplastic material tooling component during layup or cure. The printed thermoplastic material tooling base structure may employ a support structure, such as a honeycomb support structure or a filler material.

A container that includes a microwave interactive web at least partially overlying and joined to a three-dimensional support, wherein the three-dimensional support may be formed prior to having the microwave interactive web mounted thereto. The three-dimensional support may be a preformed container that is sufficiently rigid and dimensionally stable for use in containing food.

A container that includes a microwave interactive web at least partially overlying and joined to a three-dimensional support, wherein the three-dimensional support may be formed prior to having the microwave interactive web mounted thereto. The three-dimensional support may be a preformed container that is sufficiently rigid and dimensionally stable for use in containing food.

An article of protective apparel can include a first outer shell having a vacuum-formed first material. The first outer shell can include a first cavity, a second cavity, and a channel disposed between the first cavity and the second cavity. The protective apparel can include a first padding piece disposed in the first cavity, a second padding piece disposed in the second cavity, and a first inner layer attached to the first outer shell. the first padding piece and the second padding piece can be disposed between the first outer shell and the first inner layer.

An article of protective apparel can include a first outer shell having a vacuum-formed first material. The first outer shell can include a first cavity, a second cavity, and a channel disposed between the first cavity and the second cavity. The protective apparel can include a first padding piece disposed in the first cavity, a second padding piece disposed in the second cavity, and a first inner layer attached to the first outer shell. the first padding piece and the second padding piece can be disposed between the first outer shell and the first inner layer.