A pultruded profile is provided that has fiber reinforcements longitudinally extending parallel relative to each other along the length of the pultruded profile. A tracer element is disposed longitudinally along one of fiber reinforcements. A resin is disposed over the fiber reinforcements and the tracer element to form a consistent cross-sectional shape continuously along a length of the pultruded profile. The tracer element is identifiable at a cut end of the pultruded profile to provide an indication of a location of the corresponding fiber reinforcement of the plurality of fiber reinforcements in the pultruded profile.

The present invention defines a pultrusion apparatus. The apparatus comprises a portion for receiving fibres, a portion for injecting resin into the fibres, a portion for impregnating the resin injected fibres, and a portion for shaping the impregnated fibres, wherein the fibres, following their passage through the receiving portion, converge in the resin injection portion to receive the resin and the resin flows outwards following injection as the fibres progress from the injection portion through the impregnation portion.

A die or die assembly for forming a bundle of fibres into a rod or tube comprises a body (84) defining a passage 86) for conducting the bundle fibres through the die from an inlet to an outlet, a constriction (91) in the passage having an entrance shaped to form the fibres of the bundle into a desired configuration as the bundle passes through the die, and one or more conduits (92) through which a treatment fluid e.g. steam, for curing the bundle of fibres may be introduced into the passage, and wherein at last one conduit is arranged to discharge fluid in the immediate vicinity of the entrance to the constriction to facilitate passage of the fibres through the die and reduce the risk of blockage.

An injection box for a pultrusion system, the injection box comprising: a housing which has at least one fibre supply opening for supplying fibres, in particular glass fibres, carbon fibres or aramid fibres; an injection connection provided on the housing for injecting a liquid matrix material; and a delivery opening for delivering the fibres impregnated with the matrix material to a curing tool; wherein the output opening has a substantially circular cross-section.

A print head is disclosed for use with an additive manufacturing system. The print head may include a nozzle, and a traveling anchor point mounted at a trailing side of the nozzle. The traveling anchor point may include an arm extending radially outward from the nozzle, and a plunger slidingly disposed in the arm. The traveling anchor point may also include an actuator configured to selectively move the plunger from a stowed position to an engaged position against material discharging from the nozzle.

A method of forming a sporting implement includes placing a plurality of fibers in a cavity formed in a first portion of a mold, the mold having an inlet and an outlet. A second portion of the mold is positioned in contact with the first portion such that the cavity cooperates with the second portion of the mold to define a chamber. A first material is mixed with a second material to form a thermoplastic resin. The thermoplastic resin is injected into the chamber through the inlet. The inlet and outlet are closed, and the thermoplastic resin completely polymerizes so as to form a fiber reinforced sporting element in the chamber, and the sporting element is removed from the chamber.

The present disclosure relates to a wetting die having a wetting slot for producing a fiber band wetted with thermoplastic. The wetting die comprises two wetting pockets, wherein the wetting die has a respective wetting pocket at each of two horizontally lateral ends of an opening of the wetting slot. The present disclosure also relates to a process for producing a fiber band wetted with thermoplastic and to a process for producing a fiber band impregnated with thermoplastic. The present disclosure further relates to a fiber band impregnated with thermoplastic, a multilayer composite, exterior and interior trim of automobiles, and housing material.

A method of forming a sporting implement includes placing a plurality of fibers in a cavity formed in a first portion of a mold, the mold having an inlet and an outlet. A second portion of the mold is positioned in contact with the first portion such that the cavity cooperates with the second portion of the mold to define a chamber. A first material is mixed with a second material to form a thermoplastic resin. The thermoplastic resin is injected into the chamber through the inlet. The inlet and outlet are closed, and the thermoplastic resin completely polymerizes so as to form a fiber reinforced sporting element in the chamber, and the sporting element is removed from the chamber.

A method of manufacturing a structural member includes preheating a plurality of fibers to a first temperature, moving the preheated fibers along an assembly line, applying a binder having a viscosity lower than 25 centipoise to at least one of the preheated fibers, providing a die shaped to receive the preheated fibers, wherein the die moves together with the preheated fibers along at least a portion of the assembly line, maintaining a temperature of the plurality of fibers at a temperature substantially similar to the first temperature, and compressing the plurality of fibers within the die while maintaining a temperature.

A process for the manufacture of an elongate composite element comprising a bundle (20) of multifilament fibers embedded in a composition based on a polymerizable substance comprising the following comprises: arranging multifilament fibers in the form of several individual strands, so that a first strand (20a) is located at the center of the bundle and that the other strands are positioned around the first strand; and carrying along the arrangement of multifilament fibers in order to subject it, in the direction of forward progression, to degassing of said arrangement of fibres by the action of vacuum, impregnation of the arrangement of fibres with the composition, passage of the first impregnated strand through a first die (10a) which carries out its partial polymerization, passage of all the strands through a last die (10f) which brings them together in a single strand (20f), and exposure of the single strand (20f) to a source of radiation in order to carry out an additional polymerization to obtain the elongate composite element.