Abstract: A system and a method include a cam locking assembly including a support rod having a rod body that extends along an axis, a first rail component having a rail body that extends along the axis and coupled with the support rod and a third rail component, a cam having an interior passage extending along the axis that receives a portion of the support rod and an exterior surface having plural recesses, and guide pins that extend into the plural recesses of the cam and control movement of the cam. Movement of the cam controls movement of the third rail component between a loaded position and an unloaded position.

Abstract: A method for three-dimensional (3D) inspection of a workpiece for conformance to a specification includes scanning, by a 3D optical scanning device, a hole formed in a workpiece to generate a 3D point cloud of the hole defined in a 3-axis coordinate system of the 3D optical scanning device. The 3D point cloud includes 3D point cloud data that provides a profile of the hole. The method also includes translating the 3D point cloud data to generate translated 3D point cloud data that facilitates analysis of the 3D point cloud. The method further includes performing analysis of the hole using the translated 3D point cloud data to determine conformance of the hole with a specification and to detect anomalies associated with the hole.

Abstract: A system for passive deployment of a vortex generator is disclosed, including a housing mounted at a fixed location relative to an airfoil structure and a piston contained in the housing. A vortex generator is moveably mounted adjacent an exterior surface of the airfoil structure, and is moveable between a stowed position inside the airfoil structure and a deployed position outside the airfoil structure. The piston is configured to drive the vortex generator between the stowed position and the deployed position in response to a pressure differential between a first airstream over a first surface of the airfoil structure and a second airstream over a second surface of the airfoil structure.

Abstract: A method of manufacturing a shim and related systems and equipment. A mechanical tool inserted into a shim space defined between two or more components with the mechanical tool in a first configuration. The mechanical tool is free of measurement electronics. The mechanical tool, while in the shim space, is modified such that the mechanical tool assumes a second configuration to establish a plurality of model points corresponding to a boundary surface of the shim space. The mechanical tool is removed from the shim space while maintaining the mechanical tool in the second configuration. Using a measurement station distinct from the tool, the positions of the model points are electronically measured while the mechanical tool is both disposed outside of the shim space and in the second configuration. Machining instructions are generated based on the measured positions. A shim is fabricated based on the generated machining instructions.

Abstract: A method for three-dimensional (3D) inspection of a workpiece for conformance to a specification includes scanning, by a 3D optical scanning device, a hole formed in a workpiece to generate a 3D point cloud of the hole defined in a 3-axis coordinate system of the 3D optical scanning device. The 3D point cloud includes 3D point cloud data that provides a profile of the hole. The method also includes translating the 3D point cloud data to generate translated 3D point cloud data that facilitates analysis of the 3D point cloud. The method further includes performing analysis of the hole using the translated 3D point cloud data to determine conformance of the hole with a specification and to detect anomalies associated with the hole.

Abstract: A method for three-dimensional (3D) inspection of a workpiece for conformance to a specification includes scanning, by a 3D optical scanning device, a hole formed in a workpiece to generate a 3D point cloud of the hole defined in a 3-axis coordinate system of the 3D optical scanning device. The 3D point cloud includes 3D point cloud data that provides a profile of the hole. The method also includes translating the 3D point cloud data to generate translated 3D point cloud data that facilitates analysis of the 3D point cloud. The method further includes performing analysis of the hole using the translated 3D point cloud data to determine conformance of the hole with a specification and to detect anomalies associated with the hole.

Abstract: A method for three-dimensional (3D) inspection of a workpiece for conformance to a specification includes scanning, by a 3D optical scanning device, a hole formed in a workpiece to generate a 3D point cloud of the hole defined in a 3-axis coordinate system of the 3D optical scanning device. The 3D point cloud includes 3D point cloud data that provides a profile of the hole. The method also includes translating the 3D point cloud data to generate translated 3D point cloud data that facilitates analysis of the 3D point cloud. The method further includes performing analysis of the hole using the translated 3D point cloud data to determine conformance of the hole with a specification and to detect anomalies associated with the hole.

Abstract: A system for passive deployment of a vortex generator is disclosed, including a housing mounted at a fixed location relative to an airfoil structure and a piston contained in the housing. A vortex generator is moveably mounted adjacent an exterior surface of the airfoil structure, and is moveable between a stowed position inside the airfoil structure and a deployed position outside the airfoil structure. The piston is configured to drive the vortex generator between the stowed position and the deployed position in response to a pressure differential between a first airstream over a first surface of the airfoil structure and a second airstream over a second surface of the airfoil structure.

Abstract: A method of manufacturing a shim and related systems and equipment. A mechanical tool inserted into a shim space defined between two or more components with the mechanical tool in a first configuration. The mechanical tool is free of measurement electronics. The mechanical tool, while in the shim space, is modified such that the mechanical tool assumes a second configuration to establish a plurality of model points corresponding to a boundary surface of the shim space. The mechanical tool is removed from the shim space while maintaining the mechanical tool in the second configuration. Using a measurement station distinct from the tool, the positions of the model points are electronically measured while the mechanical tool is both disposed outside of the shim space and in the second configuration. Machining instructions are generated based on the measured positions. A shim is fabricated based on the generated machining instructions.