The present invention provides a method of reusing prepreg material. The method comprises providing a remnant prepreg, defining a pattern of cutting the remnant prepreg framework to form a continuous strip of the remnant prepreg framework, and cutting the remnant prepreg framework to form a continuous strip of the remnant prepreg framework. The remnant prepreg framework continuous strip may be extruded into a short fiber molding compound (SMC). The SMC may then be used to make parts with lower structural requirements than the parts cut out of the prepreg broadgood. Such SMC parts may be used in industries such as aerospace; automotive; other transportation such as trucks, buses, and motorcycles; sporting goods; and wind.

A method for separating composite materials and mixtures, in particular solid-material mixtures and slags, and to a device for carrying out said method. The method for separating composite materials and mixtures comprises the step of transporting the composite material or the mixture through a separating device. The composite material to be separated or the mixture to be separated is excited by mechanical impulses as it passes through the separating device and is thereby separated. The device (1) for carrying out the method comprises a drive unit (21) for driving a rotor element (32), which is connected to a bearing/shaft unit (22) and which is part of a rotor unit (31). The rotor element itself has at least one rotor tool (33) and each rotor tool has at least one rotor tool component (34) and is surrounded by a stator element (42), which is part of a stator unit (41). The stator element itself has at least one stator tool (43) and each stator tool has at least one stator tool component (44). The rotor element and the stator element are substantially cylindrical.

A process for separating a mixture of materials using a segregation media within a vessel having a central baffle structure which shuggles the mixture by oscillating the baffle structure at a frequency and amplitude. The mixture of materials may have overlapping densities with the segregation media having a density within the overlapping region. Polymers PE and PP may be separated in flake form. For a mixture of materials of differing densities, water may be the segregation media. Shuggling is combined with controlling the flow of water through the vessel at a set velocity. Embodiments are described for separating plastics and mineral ore.

A method and apparatus for purifying and recycling synthetic turf are provided. The method includes removing a section of used synthetic turf, feeding the section to a rotating beater to knock sand infill loose, and passing the section through a rotating brush roll wherein a turf filament surface is directly contacted by the rotating brush roll to knock any entrained infill material loose from the section of used synthetic turf.

Provided is a method of continuously regenerating a separator including inorganic particles. According to an embodiment of the present disclosure, method of continuously regenerating a separator including inorganic particles including: impregnating a separator of which at least a part of the surface is coated with a coating layer including inorganic particles in a water tank, and then performing a surface polishing treatment to release the coating layer 10 coated on the surface of the separator; and drying the separator from which the coating layer has been released may be provided.

Techniques recycle plastics in multiple successive process steps. A polymer, preferably a recyclable material, is melted using a discharge extruder, filtered using a first filter device under a positive pressure atmosphere, filtered and degassed using a degassing device, and discharged using a discharge extruder. The degassing device has at least one filter element and a vacuum chamber with a negative pressure atmosphere for filtering and degassing purposes, wherein the plastic melt can be conducted into the negative pressure atmosphere of the vacuum chamber through the filter element.

In a waste curing device for curing uncured waste resin from a manufacturing process, a waste hopper receives the uncured waste resin. A metered discharge valve is connected to the waste hopper to receive the uncured waste resin and to output a metered stream of waste resin. A curing container is configured to hold surfactant fluid and to receive the metered stream of waste resin into the surfactant fluid such that the surfactant fluid disperses the stream of waste resin as discrete droplets of waste resin. A curing system is configured to cure the droplets of waste in the curing container to form cured waste pellets. Uncured waste resin from a 3D printing process can be collected and cured into pellets onsite.

The disclosure relates to an apparatus for securely (and preferably reversibly) holding a container having a concave interior portion while a liner that abuts the concave interior portion 5 is removed from the container by peeling it therefrom. The apparatus includes a container holder having one or more holding surfaces, such as the interior of an orifice that extends through it. A holding surface (e.g., an O-ring or ridge) secures the container temporarily and reversibly, and prevents the container from disengaging from the container holder during peeling of the liner. An optional deflector can deflect a tab portion of the liner to facilitate its 10 removal from the container. After the liner is removed, the remaining portion of the container can be removed from the apparatus (e.g., and recycled).

The present invention provides a method of reusing prepreg material. The method comprises providing a remnant prepreg, defining a pattern of cutting the remnant prepreg framework to form a continuous strip of the remnant prepreg framework, and cutting the remnant prepreg framework to form a continuous strip of the remnant prepreg framework. The remnant prepreg framework continuous strip may be extruded into a short fibre molding compound (SMC). The SMC may then be used to make parts with lower structural requirements than the parts cut out of the prepreg broadgood. Such SMC parts may be used in industries such as aerospace; automotive; other transportation such as trucks, buses, and motorcycles; sporting goods; and wind.

The subject of the present invention is a method for processing metallized packaging materials, especially beverage cartons, or blister packaging. According to the invention, the aluminum is dissolved with the aid of acid and separated from the plastic. The metal-containing acid solution then undergoes pyrohydrolytic treatment and the acid is thus recovered. The aluminum can be recovered as valuable aluminum oxide.