An internal mixing extruder includes an internal mixing mechanism including a mixing chamber, where the mixing chamber includes a rear end provided with a first feed port, and a front end provided with a first discharge port, and a rotor is provided in the mixing chamber along a front-rear direction; an extrusion mechanism located below the internal mixing mechanism, where the extrusion mechanism includes an extruding chamber, the extruding chamber includes a rear end provided with a second feed port, and a front end provided with a mold, and a screw is provided in the extruding chamber along the front-rear direction; and a hopper, where the hopper is connected between the first discharge port and the second feed port. Materials are plasticized fully in the internal mixing mechanism. The fully plasticized materials enter the hopper. The hopper conveys to-be-extruded materials to the extrusion mechanism in a forced feeding manner.

An internal mixing extruder includes an internal mixing mechanism including a mixing chamber, where the mixing chamber includes a rear end provided with a first feed port, and a front end provided with a first discharge port, and a rotor is provided in the mixing chamber along a front-rear direction; an extrusion mechanism located below the internal mixing mechanism, where the extrusion mechanism includes an extruding chamber, the extruding chamber includes a rear end provided with a second feed port, and a front end provided with a mold, and a screw is provided in the extruding chamber along the front-rear direction; and a hopper, where the hopper is connected between the first discharge port and the second feed port. Materials are plasticized fully in the internal mixing mechanism. The fully plasticized materials enter the hopper. The hopper conveys to-be-extruded materials to the extrusion mechanism in a forced feeding manner.

The invention relates to a method and to an assembly for recycling plastic materials, comprising the following processing steps: a) reprocessing the raw material, wherein the material, if necessary, is comminuted and brought into a fluid-like form and heated and permanently mixed, while preserving the lumpiness and pourability thereof, and optionally the viscosity thereof is increased and/or it is degassed, softened, dried and/or crystallized; b) melting the reprocessed material, at least so much that filtration is possible; c) filtering the melt in order to remove impurities; d) homogenizing the filtered melt; e) degassing the homogenized melt; and f) discharging and/or subsequently processing the melt, such as by granulation, blown film processing, with said processing steps being carried out consecutively in the order listed (FIG. 2).

The present invention relates to screw elements with novel, tightly intermeshing, self-cleaning, co-rotating screw profiles for multishaft screw machines with pairs of co-rotating and fully abrading screw shafts, to the use of these screw elements in multishaft screw machines and to a method of generating these screw elements.

Embodiments of the presently-disclosed subject matter include extruder screws. Some embodiments of extruder screws include a screw body for placement in an extruder barrel, a plurality of ridges on the outer surface of the screw body that extend helically from an inlet end to an outlet end of the screw body, each adjacent pair of the ridges defining a channel, and one or more notches each extending across one of the plurality of ridges and between an adjacent pair of the channels. The notches can permit a material to flow from one channel into an adjacent channel, and the notches can define crosscuts that extend along the screw body and helically rotate in an opposite direction relative to the plurality of ridges. Furthermore, some extruder screws can further comprise one or more splitter rings.

Embodiments of the presently-disclosed subject matter include extruder screws. Some embodiments of extruder screws include a screw body for placement in an extruder barrel, a plurality of ridges on the outer surface of the screw body that extend helically from an inlet end to an outlet end of the screw body, each adjacent pair of the ridges defining a channel, and one or more notches each extending across one of the plurality of ridges and between an adjacent pair of the channels. The notches can permit a material to flow from one channel into an adjacent channel, and the notches can define crosscuts that extend along the screw body and helically rotate in an opposite direction relative to the plurality of ridges. Furthermore, some extruder screws can further comprise one or more splitter rings.

The present invention relates to a process for devolatilising polymer-containing media such as, in particular, polymer melts, polymer solutions and dispersions and also devolatilisation apparatuses for carrying out the abovementioned process.

An extruder includes a screw for extruder provided with a screw element for kneading a raw material, and a barrel including a cylinder portion in which the screw is inserted so as to be rotatable. A plurality of screw elements identical with the screw element are provided in a longitudinal direction of the screw under a certain rule. The barrel is integrated by combining a plurality of barrel blocks blocked. Each of the plurality of barrel blocks is configured in accordance with a length of the screw element provided in the longitudinal direction of the screw.

Embodiments of the presently-disclosed subject matter include extruder screws. Some embodiments of extruder screws include a screw body for placement in an extruder barrel, a plurality of ridges on the outer surface of the screw body that extend helically from an inlet end to an outlet end of the screw body, each adjacent pair of the ridges defining a channel, and one or more notches each extending across one of the plurality of ridges and between an adjacent pair of the channels. The notches can permit a material to flow from one channel into an adjacent channel, and the notches can define crosscuts that extend along the screw body and helically rotate in an opposite direction relative to the plurality of ridges. Furthermore, some extruder screws can further comprise one or more splitter rings.

The invention relates to mixing elements having an increased number of base geometry periods per longitudinal section and an improved dispersing effect for multi-shaft screw extruders comprising screw shafts that co-rotate in pairs. The mixing elements have clearances that are configured according to the method of spatial equidistants or according to the method of longitudinal equidistants. The invention further relates to the use of the mixing elements in multi-shaft screw extruders, a corresponding screw extruder comprising the mixing elements, and a method for extruding plastic masses.