A drape forming apparatus includes a forming tool having a first forming surface and a second forming surface nonplanar with the first forming surface. A tray is spaced apart from the forming tool and is configured to pivot about a hinged end from a first position to a second position under an applied force such that a distal end moves away from the forming tool. A first side of the tray faces a first heat source when the tray is in the first position, and a second heat source is disposed at a second side of the tray. A device for use in forming the composite structure includes a standoff and the tray, and a heat source is secured to the second side of the tray. A method of forming a composite structure includes heating both sides of the composite material with the first and second heat sources.

A tubular material application system for applying a tubular material onto an elongate mandrel includes a gripper system including a first gripper and a second gripper configured to move with inchworm-type movement along an elongated mandrel and incrementally apply a tubular material onto the mandrel to thereby result in a tubular material-mandrel assembly.

Composite assemblies are described that include composite spars that are co-cured with one or more sacrificial members on their flanges, forming an integrated sacrificial surface for the composite spars. In one embodiment, the composite assembly includes a composite spar having a web and flanges that project from sides of the web. The composite assembly further includes a sacrificial member of composite materials co-cured with the composite spar on an outer surface of at least one of the flanges. In addition, the sacrificial member has an outer surface that has been machined into conformance with an inner surface of at least one skin panel for an aircraft structure to form a contact surface with the at least one skin panel.

A reinforced structural component includes a body portion made of a combination of plastic material and chopped fibers. The body portion has a central longitudinal axis and a cross-section orthogonal to the central longitudinal axis, with the cross-section having an outer periphery and an inner core inward of the outer periphery. The body portion has an outer peripheral portion and an inner core portion corresponding to respective longitudinal projections of the outer periphery and inner core. The body portion is configured for being acted upon by a combination of forces causing tension within one or more longitudinal segments of the inner core portion. The reinforced structural component also includes one or more layers of continuous fiber disposed longitudinally within the one or more longitudinal segments, so as to resist tension caused within the one or more longitudinal segments.

An impact-resisting beam is provided, the beam comprising a multi-layer composite structure, the composite structure comprising first and second fibrous materials, the first fibrous material having a first effective elastic modulus and comprising one or more layers comprising fibers of a first type being arranged with one or more orientation angles relative to a longitudinal axis of the beam such that a predetermined load applied to the beam from a direction perpendicular to its longitudinal axis drives the fibers of the first type towards alignment with the longitudinal axis of the beam, the second fibrous material having a second effective elastic modulus and comprising one or more layers comprising fibers of a second type, the second fibrous material being selected to provide effective elongation or deformation of the beam which prevents splitting of the beam under application of the predetermined load.

Devices and methods for producing a T-shaped semifinished product from a multiply non-crimp fabric with reinforcing fibers for a composite material. The product has a web and a flange. The device includes a web forming tool, with which a web portion of the non-crimp fabric is clamped in place, a forming tool, with which plies of a flange portion of the non-crimp fabric are split into two parts, a depositing device, with which a tube body is deposited on the flange portion formed into the flange, a holding tool, with which a clearance between the holding tool and the flange is formed, and a filling device, with which the tube body is filled with a gas such that the tube body fills the clearance and firmly holds the flange portion formed into the flange, and alternatively, a magnetic force can be generated between a sheet and the web forming tool.

A tool is configured to form a composite charge into a stringer having a net shape with at least one out-of-place feature. The out-of-plane feature is formed by a shim removably attached to the tool. A family of the shims may be used to form a range of out-of-plane features having varying characteristics.

Cap wrinkling in a contoured composite hat stringer is reduced by constraining the cap as the hat stringer is being formed from a flat composite charge. The cap is constrained by an inflatable bladder placed in a tool set used to form the composite charge.

Described are methods and systems for manufacturing curved composite stringers. Such composite stringers may have in-plane and/or out-of-plane bends, which are formed while shaping composite charges. Specifically, a composite charge is shaped using a pallet, comprising a plurality of independent pallet portions, rotatably coupled to each other. A hat portion is formed when a part of this charge is conformed to a cavity in the pallet. The pallet portions are rotated relative to each other while forming the hat portion and/or when the hat portion already conforms to the cavity. In some examples, the die is bent together with the charge, when the pallet portions are rotated. This rotation produces one or more of in-plane and/or out-of-plane bends. In some examples, flange portions of the composite charge are positioned in a temporary orientation, e.g., to enable bending of the charge and reduce wrinkles.

A tool for making contoured composite hat stringers allows control of stringer wrinkling. The tool includes a set of first openings that allow the tool to flex during contouring of the stringer, and a set of second openings into which portions of the composite charge may strain during the contouring.