A method of upcycling fiber reinforced polymer source material by disassembling the source material into sections; planking the sections into longitudinal pieces; separating core material from the source material in the longitudinal pieces to make composite strips; preparing the composite strips; and remanufacturing the prepared composite strips into an article.

The present disclosure relates to a method for preparing a wind turbine blade for recycling by sectioning the wind turbine into at least a first and a second wind turbine blade part comprising different types of materials or comprising the same type of materials in a different relative content.

A system and method for fabricating, hauling, and deploying an industrial crane mat constructed from recycled windmill turbine spars. The system and method comprising: removing outer covering from a wind turbine blade with a trimmer, cutting the wind turbine blade into a plurality of uniform boards using a cutter, connecting the plurality of the plurality of uniform boards side by side into two rows of the plurality of uniform boards, using a plurality of rings, wherein the two rows each have a first end and a second end, and wherein the plurality of rings connects a first end of the first row to a second end of the second row together to form a crane mat, bifolding the crane mat onto itself in half along a latitudinal axis of the crane mat using a loader, loading the bifolded crane mat onto a trailer using a line attached to the bifolded crane mat to pull the bifolded crane mat onto the trailer and pulling the bifolded crane mat onto the trailer using a winch.

Methods of producing particles of fiber and resin from fiber-resin composite materials are disclosed. The particles may be combined with a resin system and optionally combined with fillers, binders or reinforcements to produce new cured solid composite products.

A method of recovering polymer from a three-dimensional printed object can include dissolving a polyamide polymer of a three-dimensional printed object in a polyamide-dissolving solvent to generate dissolved polyamide polymer from the three-dimensional object, where the three-dimensional printed object can include a particulate fusing compound and from about 90 wt % to about 99.9 wt % of the polyamide polymer; separating the particulate fusing compound from the polyamide-dissolving solvent and the dissolved polyamide polymer; and evaporating the polyamide-dissolving solvent from the dissolved polyamide polymer.

A secondary shredder can include a rotor assembly that employs a modular rotor design. Each rotor of the rotor assembly can include a number of blades that are symmetrical around a horizontal and a vertical axis. Each rotor can include a number of radial extensions forming gaps into which the blades insert. The blades can be secured within the gaps by wedges that apply an inward force against the blades when the wedges are secured into the gaps. The radial extensions and blades can include keyways into which keys insert to prevent the blades from escaping the gaps. The secondary shredder may also include a stationary knife assembly that includes multiple stationary knives that are positioned on the same side of the rotor assembly.

The invention relates to a method for producing an EBM bottle with 0.90 to 1.5 dL/g from a bottle-grade PET post-consumer recycling flake, i.e., a recycled, post-consumer PET with a viscosity of 0.65 to 0.84 dL/g, using extrusion processes, solid state polycondensation processes, and a blowing process.

A system, process and resulting product which converts currently non-recycled plastics plastic bottles, jars, containers, PVC tubing, toys, furniture, synthetic plastic carpet and all other plastics that can be shredded, chipped, powered and or melted into a building material or useful utilitarian object. The process eliminates the need for sorting the plastic. The invention only melts the low temperature melting plastic. The low temperature melting plastic act as the glue or adhesive to bond all the high and low melting, shredded, chipped, flaked, powdered, or pelletized plastics together. The listed fragmented plastics must be mechanically mixed before it is subjected to the low temperature melt process. The conglomerate can be processed into a myriad of forms such as construction panels that can also have decorative veneer added. The conglomerate can also be melted, molded into a myriad of shapes that can also be machined to form intricate useful features.

A method for recycling a transfer product having at least one carrier film, wherein a transfer ply is arranged detachably at least partially on the at least one carrier film, and wherein the following steps are carried out in the method, in particular in the following order: a) shredding (10) the transfer product, by means of a shredder or a shredding device, into transfer product shreds, in particular carrier film shreds, preferably wherein the transfer product is present wound onto a roll, b) compressing (30) the transfer product shreds, in particular carrier film shreds, into a compact product or extruding (31) the transfer product shreds, in particular carrier film shreds, into an extrusion product.

Disclosed herein is a roof cover board and a method of manufacturing an improved cover board product. The method includes receiving waste materials or first use materials, the waste materials or first use materials containing a mixture of cellulose, plastic and other materials; separating the cellulose and the plastic from the mixture; shredding the separated cellulose using a first shredder into a stream of cellulose and shredding the separated plastic using a second shredder into a stream of plastic; selecting a cellulose to plastic ratio from a plurality of cellulose to plastic ratios; metering shredded cellulose from the stream of cellulose and shredded plastic from the stream of plastic according to the selected cellulose to plastic ratio; mixing the metered shredded cellulose and plastic; forming said mixture into a mat; and consolidating the mat into a finished good using heat and pressure.