Abstract: A method is disclosed for manufacturing a joint. The method may include depositing a first plurality of paths within a first layer. Each of the first plurality of paths may have a center portion, a first portion extending away from the center portion to at least partially form a first branch, and a second portion integral extending away from the center portion opposite the first portion to at least partially form a second branch. The method may further include depositing a second plurality of paths primarily within the first layer. Each of the second plurality of paths may have a center portion, and a first portion extending away from the center portion to at least partially form a third branch of the joint. The second plurality of paths may cross over and be bonded to the first plurality of paths to form spaced-apart bumps that extend into a second layer.

Abstract: A method is disclosed for manufacturing a joint. The method may include depositing a first path of composite material within a first layer at the joint. The first path may have a center at a center of the joint, a first portion integral with the center portion and extending away from the center portion, and a second portion integral with the center and extending away from the center portion. The method may further include depositing a second path of composite material within the first layer at the joint. The second path may have a center at the center of the joint, and a first portion integral with the center of the second path and extending away from the center of the second path. The center portion of the second path may be parallel with, abut and be bonded to the center portion of the first path.

Abstract: A method is disclosed for additively manufacturing a layer of a structure. The method may include determining a surface representing the layer of the structure, and determining a seed tool path lying on the surface. The method may further include, at each of a plurality of seed points along a length of the seed tool path, determining an offset direction that is transverse to an axis of the seed tool path at each of the plurality of seed points and parallel with the surface. The method may additionally include generating a plurality of offset points, each of which is offset in the offset direction from a corresponding one of the plurality of seed points. The method may also include determining an offset tool path based on the plurality of offset points, and causing a machine to discharge material along the offset tool path.

Abstract: A method is disclosed for additively manufacturing of a joint within a structure using a composite material. The method may include depositing a first path of the composite material within a first layer at the joint. The first path may have a center portion at a center of the joint, and a first portion integral with the center portion and extending away from the center portion. The first portion may form at least part of a first branch having a first density. The center of the joint may have a second density. The first density may be greater than the second density.

Abstract: A method is disclosed for manufacturing a joint. The method may include depositing a first path of composite material within a first layer at the joint. The first path may have a center at a center of the joint, a first portion integral with the center portion and extending away from the center portion, and a second portion integral with the center and extending away from the center portion. The method may further include depositing a second path of composite material within the first layer at the joint. The second path may have a center at the center of the joint, and a first portion integral with the center of the second path and extending away from the center of the second path. The center portion of the second path may be parallel with, abut and be bonded to the center portion of the first path.

Abstract: A method is disclosed for manufacturing a joint. The method may include depositing a first plurality of paths within a first layer of the structure that passes through the joint in a first configuration. The method may further include applying a transformation to the first configuration to form a second configuration. The method may additionally include depositing a second plurality of paths within a second layer of the structure to at least partially overlap the first plurality of paths and pass through the joint in the second configuration.

Abstract: A method is disclosed for manufacturing a joint. The method may include depositing a first plurality of paths to form a base layer of a joint in the structure. The method may also include depositing a second plurality of paths that pass through the joint. At least one of the second plurality of paths may extend away from the base layer through free space.

Abstract: A method is disclosed for manufacturing a joint. The method may include depositing a first plurality of paths within a first layer. Each of the first plurality of paths may have a center portion, a first portion extending away from the center portion to at least partially form a first branch, and a second portion integral extending away from the center portion opposite the first portion to at least partially form a second branch. The method may further include depositing a second plurality of paths primarily within the first layer. Each of the second plurality of paths may have a center portion, and a first portion extending away from the center portion to at least partially form a third branch of the joint. The second plurality of paths may cross over and be bonded to the first plurality of paths to form spaced-apart bumps that extend into a second layer.