A method for producing gramophone records by injection moulding, comprises the steps of heating polymeric material to liquefy said material, supplying liquid polymeric material under pressure from a feed zone to a space between two mould parts via a nozzle. The liquid polymeric material is passed through a single passage located in one of the mould parts and forced under pressure through the nozzle into said space. Polyethylene terephthalate isophthalic acid modified copolymer is used as said polymeric material.

To provide a plasticizing device capable of easily executing maintenance of a barrel. A plasticizing device includes: a drive motor; a flat screw having a groove forming surface in which a groove is formed, and rotating around a rotation axis of the drive motor; a barrel having a facing surface facing the groove forming surface and having a communication hole formed therein; and a heating unit configured to heat a material supplied between the flat screw and the barrel. The barrel has a separate structure including, when viewed from a direction orthogonal to the rotation axis, a first barrel having the facing surface, and a second barrel separated from the facing surface.

To provide a plasticizing device capable of easily executing maintenance of a barrel. A plasticizing device includes: a drive motor; a flat screw having a groove forming surface in which a groove is formed, and rotating around a rotation axis of the drive motor; a barrel having a facing surface facing the groove forming surface and having a communication hole formed therein; and a heating unit configured to heat a material supplied between the flat screw and the barrel. The barrel has a separate structure including, when viewed from a direction orthogonal to the rotation axis, a first barrel having the facing surface, and a second barrel separated from the facing surface.

A method of performing an injection cycle having a duration comprising: beginning the injection cycle with the valve pins associated with two or more nozzles in a gate closed position, selecting a first one of the two or more nozzles and controllably driving its associated valve pin from the gate closed position to a selected first axial upstream position, upon downstream flow of the injection fluid through a cavity the preselected distance, controllably driving the valve pin associated with the other of the two or more nozzles to a selected second axial position upstream, holding or controllably driving the valve pin associated with the first one of the two or more nozzles in or to one or more reduced flow axial upstream positions that are partially closed.

A valve assembly for resin transfer molding is provided. The valve assembly includes an inlet positioned to receive a fluid. The valve assembly additionally includes a valve shaft positioned to receive the fluid from the inlet. The valve assembly further includes an outlet positioned to receive the fluid from the inlet. The valve assembly also includes an injection port positioned to receive the fluid from the valve shaft. The valve assembly also includes a piston configured to move coaxially within the valve shaft, such that the fluid is delivered from the inlet to the outlet when the piston is in a first position, and the fluid is delivered from the inlet to the injection port when the piston is in a second position.

A method of performing an injection cycle having a duration comprising: beginning the injection cycle with the valve pins associated with two or more nozzles in a gate closed position, selecting a first one of the two or more nozzles and controllably driving its associated valve pin from the gate closed position to a selected first axial upstream position, upon downstream flow of the injection fluid through a cavity the preselected distance, controllably driving the valve pin associated with the other of the two or more nozzles to a selected second axial position upstream, holding or controllably driving the valve pin associated with the first one of the two or more nozzles in or to one or more reduced flow axial upstream positions that are partially closed.

A method for manufacturing a wheel, the method including a step of making a rim on a radially outer peripheral edge of a carrier core, during the step said carrier core, which extends from a radially inner wall forming a steering axis bore corresponding to the axis of rotation of the wheel, until the peripheral edge, is placed in a mold formed by at least one first portion and one second portion, then an injection material is injected by means of at least one injection nozzle so as to coat, by overmolding, at least partially said carrier core in order to form the rim, wherein after the injection of the injection material, the first portion of the mold and the second portion of the mold are brought closer to each other such that the injection material is compressed in the mold.

A method for manufacturing a wheel, the method including a step of making a rim on a radially outer peripheral edge of a carrier core, during the step said carrier core, which extends from a radially inner wall forming a steering axis bore corresponding to the axis of rotation of the wheel, until the peripheral edge, is placed in a mold formed by at least one first portion and one second portion, then an injection material is injected by means of at least one injection nozzle so as to coat, by overmolding, at least partially said carrier core in order to form the rim, wherein after the injection of the injection material, the first portion of the mold and the second portion of the mold are brought closer to each other such that the injection material is compressed in the mold.

For processing cost reduction and improvement of efficiency, a no-mold-runner multi-nozzle device, comprising: an injection machine, a multi-nozzle component, a front template, and a no-mold-runner. The multi-nozzle component includes a plurality of nozzles, which is connected to the injection machine. The injection machine is used to inject a mixture of molding material and supercritical fluid into multiple nozzles. The front template is provided with a plurality of first passage holes. The no-mold-runner is provided with a mold cavity and a plurality of second passage holes communicating with the mold cavity. The nozzle correspondingly passes through a plurality of first passage holes and second passage holes and is installed in cooperation. By controlling the opening or closing of the nozzle, the mixed material of the molding material and the supercritical fluid enters the mold cavity or stops entering the mold cavity.

A component for a nozzle for injecting molten plastic into a molding cavity of a container, in particular of a test tube or a bottle preform, the component comprising a first body in which a shutter can slide along an axis; wherein the first body has a wall which extends about said axis; wherein said wall is provided with a first zone adapted to guide the sliding of the shutter along the axis, and a second zone which delimits a first stretch of a channel for the molten plastic; wherein said first body is provided with at least one through hole which crosses said wall, in particular transversely to the axis, which allows the molten plastic to pass through, in particular to enter, said first stretch of the channel.