Abstract: An incremental forming machine and a process are disclosed that comprise selecting a blank and selecting a stylus tool that has a tip at one end. The stylus tool may be heated to a desired temperature before contacting the blank with the stylus tool to change a characteristic of the blank or part. The stylus tool apparatus may include a tip on an end of a shaft and a resistance heating element disposed inside the tip. Alternatively, the stylus tool apparatus may include an induction heating coil disposed around the tip. The tip of the stylus tool may have a rotatable ball that engages the blank or part.

Abstract: An assembly includes an upper substrate, a lower substrate, and a self-piercing rivet. The lower substrate defines a preformed interior cavity and a preformed exterior profile adjacent the interior cavity to define a variable thickness wall. The self-piercing rivet extends through the upper substrate and into the preformed interior cavity of the lower substrate.

Abstract: A method of installing a friction element includes driving the friction element through a top panel and friction welding the friction element to a bottom panel. At least one additional panel may or may not be between the top panel and the bottom panel. Also, at least one key friction element weld (FEW) parameter is controlled during installing of the friction element, at least one key FEW parameter is monitored during installing of the friction element, and the at least one key FEW controlled parameter is adjusted in real-time as a function of and in response to the at least one key FEW monitored parameter exhibiting completion of at least one key FEW process characteristic. Non-limiting examples of the at least one key FEW controlled parameter include RPM of the friction element and insertion force applied to the friction element.

Abstract: A self-piercing rivet (SPR) includes a head portion and a shaft extending from the head portion. The shaft defines a hollow bore and a sidewall surrounding the hollow bore. The sidewall has a reduced thickness towards a distal end portion of the shaft to define a cutting edge on a distal end tip of the shaft, and the SPR defines a circumferential groove disposed at least partially around the shaft and extending into the sidewall.

Abstract: An incremental forming machine and a process are disclosed that comprise selecting a blank and selecting a stylus tool that has a tip at one end. The stylus tool may be heated to a desired temperature before contacting the blank with the stylus tool to change a characteristic of the blank or part. The stylus tool apparatus may include a tip on an end of a shaft and a resistance heating element disposed inside the tip. Alternatively, the stylus tool apparatus may include an induction heating coil disposed around the tip. The tip of the stylus tool may have a rotatable ball that engages the blank or part.

Abstract: A method of installing and sealing a friction fastener to at least an upper substrate and a lower substrate includes providing an expandable sealant to an underhead volume of the friction fastener, installing the friction fastener through the upper substrate and into the lower substrate using a joining device, and applying heat in-situ to the expandable sealant such that the friction fastener is sealed to at least the upper substrate. The heat in-situ is applied to the expandable sealant via installing the friction fastener and/or with an external heating source disposed downstream from the joining device.

Abstract: An incremental forming machine and a process are disclosed that comprise selecting a blank and selecting a stylus that has a tip at one end. The stylus may be heated to a desired temperature before contacting the blank with the stylus to change a characteristic of the blank or part. The stylus apparatus may include a tip on an end of a shaft and a resistance heating element disposed inside the tip. Alternatively, the stylus apparatus may include an induction heating coil disposed around the tip. The tip of the stylus may have a rotatable ball that engages the blank or part.

Abstract: An assembly includes an upper substrate, a lower substrate, and a self-piercing rivet. The lower substrate defines a preformed interior cavity and a preformed exterior profile adjacent the interior cavity to define a variable thickness wall. The self-piercing rivet extends through the upper substrate and into the preformed interior cavity of the lower substrate.

Abstract: A method of operating a riveting tool includes mounting a die in an installed position, determining an actual stroke distance of the riveting tool, comparing the actual stroke distance to a predetermined stroke distance that is based on a desired rivet location, and operating or not operating the riveting tool to install a rivet into workpieces, based on the result of the comparison.

Abstract: A method of reducing the cycle time required for flow-drill screw operations by providing a dimple on a part that is engaged by a flow-drill screw. A tip of the flow-drill screw engages a contact band at a location spaced from the tip of the distal end of the flow-drill screw and base portion of the dimple. Friction between the flow-drill screw tip and dimple creates a heat concentration area and results in displaced material fanning a threaded collar. The flow-drill screw is secured by the threads of the threaded collar.

Abstract: A process for joining fiber composite materials using self-piercing rivets. The process includes contacting first and second panels. The second panel is a fiber composite material. The process further includes elevating a temperature of only a fastening portion of the second panel. The process also includes placing the first and second panels on a die and joining the first and second panels with one or more rivets while the fastening portion is at an elevated temperature.

Abstract: A method of protecting a repair joint having at least two workpieces joined by a fastener includes selecting a preformed functional body based on at least one joint characteristic and applying the preformed functional body to cover the fastener and at least a portion of one of the workpieces. Generally, the preformed functional body inhibits contamination or moisture ingress at a joint interface, and especially in a repair operation. The preformed functional body in one form defines a material that undergoes a color change to indicate a state of cure, and in another form is cured by UV light, moisture, or heat after application.

Abstract: A method of operating a riveting tool includes mounting a die in an installed position, determining an actual stroke distance of the riveting tool, comparing the actual stroke distance to a predetermined stroke distance that is based on a desired rivet location, and operating or not operating the riveting tool to install a rivet into workpieces, based on the result of the comparison.

Abstract: Systems and methods for reducing or eliminating corrosion in joined materials are disclosed, for example, multi-material joints. The system may include a sealing device including a body and a tip. The tip may be configured to form a seal around a local region of a material having a fastener disposed therein. The sealing device may be configured to apply a sealant material from the tip to the local region and form a cap thereover. The tip of the sealing device may form a cavity between the material and the inner surface of the tip, which may be filled with the sealant material to form the cap. In one embodiment, the sealing device may be configured to couple to the joining device that inserted the fastener. This may allow for accurate and robust placement of the sealant material directly after the fastener is inserted.

Abstract: A fastener for use in joining workpieces, for example automotive body parts such as a roof to a body frame member, is provided that includes a plastically deformable head portion, a platform disposed at a bottom of the head portion, and a distal end portion extending from the platform and defining at least one of elastically deformable locking member. The head portion is heat staked to one workpiece, and the elastically deformable locking member engages another workpiece to secure the workpieces together. The platform provides spacing, or a bond gap in one form, between the workpieces, and a material and geometry of the fastener are configured to compensate for a difference in thermal expansion of the workpieces.

Abstract: Systems and methods for locally softening high strength steel are disclosed. One method may include heat treating one or more local regions of a steel component having a hardness of at least 450 HV to soften the local region(s) to a hardness of at most 250 HV. The heat treating may include heating only the local region(s) to a target temperature above an AC1 temperature of the component and below an AC3 temperature of the component. In another method, the heat treating may include heating only the local region(s) to a first target temperature above an AC3 temperature of the component, cooling the local region(s) to below an AC1 temperature of the component, and isothermally holding the local region(s) at a second target temperature below the AC1 temperature. The locally softened region(s) may allow for improved joining and/or trimming of the component.

Abstract: An assembly, for example an automotive assembly, is provided that includes an upper workpiece, a lower workpiece, and a rivet extending through the upper workpiece and into the lower workpiece. The rivet, which may be a self-piercing rivet (SPR) in one form, includes a head portion and a shaft portion extending from the head portion. A diameter of the head portion (Hd) is less than or equal to a diameter of the shaft portion (Sd), and an interface between the head portion of the rivet and the upper workpiece is flush.

Abstract: A method is provided for assembling a stack-up including a first workpiece with a clearance hole and a second workpiece. The method comprises adhering an adhesive to a first face of the first workpiece so as to completely cover and close the clearance hole and securing the second workpiece to a second face of the first workpiece with an adhesive. A stack-up and the method of capturing adhesive squeeze-out during a stack-up assembly process are also disclosed.

Abstract: A method of reducing the cycle time required for flow-drill screw operations by providing a dimple on a part that is engaged by a flow-drill screw. A tip of the flow-drill screw engages a contact band at a location spaced from the tip of the distal end of the flow-drill screw and base portion of the dimple. Friction between the flow-drill screw tip and dimple creates a heat concentration area and results in displaced material fanning a threaded collar. The flow-drill screw is secured by the threads of the threaded collar.

Abstract: A method and system are disclosed for treating a press hardened part by induction heating localized areas of the part to have reduced hardness. The method and system monitor an ambient temperature, cycle time, outgoing part property requirements, and outgoing part hardness in local areas. A time value and temperature value are set by a computer system for a plurality of induction heaters. A local area of the part is induction heated to soften the part in localized areas. The hardness of the localized areas is tested after induction heating.