A stamping tool and a method for deforming a part with the stamping tool are disclosed. The stamping tool may include an array of striking members (e.g., pins), each striking member capable of being actuated independently with respect to the other striking members. In some embodiments, the stamping tool is part of a system having a vision system and a computing device. The vision system is capable of scanning the part to determine a location or location in which the array of striking members will engage the part. The deforming operation can include a rework operation subsequent to another process, or alternatively, the deforming operation can include deforming the part such that the part includes a three-dimensional shape. Also, the part can be a two-dimensional or three-dimensional part made from metal (e.g., aluminum, steel) or plastic.

A tooling set for stamp forming a workpiece includes a first stamping tool, a second stamping tool and an elastomeric layer between the first and second stamping tools. The first stamping tool defines a first forming face. The second stamping tool defines a second forming face. The elastomeric layer defines first and second compliant stamping surfaces. A method for stamp forming a workpiece includes positioning a workpiece between the first stamping tool and the elastomeric layer and compressing the workpiece between the first forming face and the first compliant stamping surface in response to the first and second stamping tools being approximated. A system for stamp forming a workpiece includes the tooling set.

A tooling set for stamp forming a workpiece includes a first stamping tool, a second stamping tool and an elastomeric layer between the first and second stamping tools. The first stamping tool defines a first forming face. The second stamping tool defines a second forming face. The elastomeric layer defines first and second compliant stamping surfaces. A method for stamp forming a workpiece includes positioning a workpiece between the first stamping tool and the elastomeric layer and compressing the workpiece between the first forming face and the first compliant stamping surface in response to the first and second stamping tools being approximated. A system for stamp forming a workpiece includes the tooling set.

A method and an apparatus or pressing groove section with a bending angle smaller than or equal to 90 degrees are provided. The apparatus comprises an upper convex die and a lower concave die are used for processing. The convex die comprises an expansion sleeve and an expansion core which are nested with each other. At least one of a central hole of the sleeve body and the core body is a wedge with a larger top and a smaller bottom, and a relative locking mechanism is arranged between the core body and the core body. The concave die comprises a multi-petal-shaped inner concave die and an external outer concave die which are in elastic connection.

An apparatus and method configured for manufacturing an aircraft part from formable material. The apparatus may include one or more rigid forming components onto which the formable material is placed and between which non-flange portions of the formable material may be compressed, and at least one inflatable component that, when expanded by inflation, presses flange portions of the formable material against at least one of the rigid forming components. The inflation component(s) may be arranged in any configuration for forming the formable material into C-shaped channels, single L-shaped channels, or opposing Z-shaped channels. Once pressed between the rigid forming components and/or the inflated inflatable components, the formable material may be heated for forming according to the particular formable material used.

A method for forming a conduit with a radial flange for forming part of a beaded coupling by: positioning a conduit blank in a forming die, wherein the forming die defines a radially extending recess; inserting a forming post in the conduit blank to define an annular space therebetween; inserting a flexible material in the annular space between the post and the conduit; placing a sleeve in a bearing relationship with the flexible material; compressing the flexible material between the post and the sleeve to force the flexible material against the conduit to expand the conduit outward into engagement with the radially extending recess in the forming die to form an annular flange; and releasing compression on the flexible material.

A method for forming a conduit with a radial flange for forming part of a beaded coupling by: positioning a conduit blank in a forming die, wherein the forming die defines a radially extending recess; inserting a forming post in the conduit blank to define an annular space therebetween; inserting a flexible material in the annular space between the post and the conduit; placing a sleeve in a bearing relationship with the flexible material; compressing the flexible material between the post and the sleeve to force the flexible material against the conduit to expand the conduit outward into engagement with the radially extending recess in the forming die to form an annular flange; and releasing compression on the flexible material.

An apparatus is provided for molding a contact pad in place on an automation template. The apparatus includes an automation template having a contact pad retainer and a molding cap received over the contact pad retainer and retained using a self-locking fit. A mold cavity is formed between the automation template and the molding cap.

A device and a method for forming by stamping a curved metal sheet. The device includes a punch made of deformable and substantially non-compressible material, a hammer configured to strike the punch along the longitudinal axis Z. A generator to generate a magnetic field configured to impart on the hammer a speed greater than a predetermined speed in the Z direction. The device further includes a matrix of predetermined shape, approximately rotationally symmetrical about the longitudinal axis Z. The punch is rotationally symmetrical about the longitudinal axis and configured to be disposed in front of the matrix. The punch has a longitudinal dimension in the same order of magnitude as its dimension perpendicular to the longitudinal axis Z.

A device and a method for forming by stamping a curved metal sheet. The device includes a punch made of deformable and substantially non-compressible material, a hammer configured to strike the punch along the longitudinal axis Z. A generator to generate a magnetic field configured to impart on the hammer a speed greater than a predetermined speed in the Z direction. The device further includes a matrix of predetermined shape, approximately rotationally symmetrical about the longitudinal axis Z. The punch is rotationally symmetrical about the longitudinal axis and configured to be disposed in front of the matrix. The punch has a longitudinal dimension in the same order of magnitude as its dimension perpendicular to the longitudinal axis Z.