A shock tower assembly includes a shock tower body comprised of a polymer composite material, at least one reinforcement member integrated into the shock tower body, and a wheel cover comprised of the polymer composite material and integrated into the shock tower body to form a single-piece component.

A dispenser apparatus for a curable liquid material is disclosed. The apparatus comprises a flexible bag defining a first compartment for accommodating a first component of a curable liquid material, and a second compartment for accommodating a second component of the curable liquid material and adapted to communicate with the first chamber to enable mixing of the first and second components to initiate curing of the curable liquid material. A first clamp temporarily prevents mixing of the first and second components, and an elongate nozzle communicates with the second compartment to dispense the mixed curable liquid material therefrom. A second clamp temporarily prevents passage of the curable liquid material from the second compartment to the nozzle.

A footwear insole shape is generated by supplying a core reinforced filament having a matrix material impregnating reinforcing strands aligned along the filament, as well as a fill material separately from the core reinforced filament and depositing at least one shell of fill material within an insole shape upon a print bed. The core reinforced filament is deposited to fuse to the fill material within a first reinforcing region formed with respect to the insole shape. A cutter upstream of the nozzle tip cuts the core reinforced filament, and a remainder of the core reinforced filament is deposited to complete the first reinforcing region. A nozzle tip applies pressure to continuously compact the core reinforced filament toward the insole shape as the core reinforced filament is fused to the fill material.

A resin part for a vehicle includes a fender main body formed of a fiber-reinforced resin using a resin fiber, and a fastening section formed of the same resin material as the resin fiber, formed integrally with the fender main body and fastened to the vehicle body.

A resin part for a vehicle includes a fender main body formed of a fiber-reinforced resin using a resin fiber, and a fastening section formed of the same resin material as the resin fiber, formed integrally with the fender main body and fastened to the vehicle body.

A resin part for a vehicle includes a fender main body formed of a fiber-reinforced resin using a resin fiber, and a resin structure section formed of the same resin material as the resin fiber, provided at least on an outer surface of the resin part main body exposed on an outer side of a vehicle, and formed integrally with the resin part main body.

A resin part for a vehicle includes a fender main body formed of a fiber-reinforced resin using a resin fiber, and a resin structure section formed of the same resin material as the resin fiber, provided at least on an outer surface of the resin part main body exposed on an outer side of a vehicle, and formed integrally with the resin part main body.

A head is disclosed for use with an additive manufacturing system. The head may include a matrix reservoir, and a nozzle fluidly connected to the matrix reservoir and configured to discharge a composite material into a feature of an existing component. The head may also include a guide operatively connected to the nozzle and configured to detect a location of the feature.

A method for fabricating polymeric sheets containing microwires includes encapsulating at least a portion of individual lengths of a plurality of microwires in a non-conductive polymeric sheet while the microwires are attached to the substrate. The microwires are then detached from the substrate without removing the microwires from the polymeric sheet. The detaching step forms a separated polymeric sheet containing the detached microwires. Individual detached microwires of the plurality are approximately perpendicular to the separated polymeric sheet. A microwire array device includes a non-conductive polymeric sheet and a plurality of microwires. Individual microwires of the plurality have an independent length at least partially encapsulated by the polymeric sheet, are approximately perpendicular to the polymeric sheet, and contain magnetic ferrite.

Method of making a golf ball comprising: providing a subassembly and a thermoset polymer composition; partially curing the thermoset polymer composition and elongating same while in a partial cure state; forming a layer about the subassembly comprising the thermoset polymer composition; and further curing the thermoset polymer composition. A moldable thermoset polymer composition may be elongated while in state of partial cure. The thermoset polymer composition may be stepwise elongated by: stretching a thermoset polymer composition in at least one plane while in partial cure state and before forming into first and second half shells; forming the thermoset polymer composition into first and second half shells and elongating the thermoset polymer composition in three dimensions while in the partial cure state and before mating the first and second half shells about the subassembly; and mating the first and second half shells about the subassembly and forming a stepwise-elongated thermoset layer.