A presentation featuring AMMPI's new Submerged Bobbin Tool (SBT) tunneling technology was presented at AeroMat 2022 on March 15, 2022. The pre-recorded presentation is available for viewing on the UNT Engineering youtube.com channel linked below.
The abstract for the presentation reads: SBT tunneling technology is a new solid-state friction stir processing (FSP) method for producing integral channels within structural components. Due to low out‐of‐plane process forces, this patent pending process is suited for robotic applications, opening possibilities for producing 3-D internal pathways for wiring, gases, fluids, powders, tubing, composites, etc. Example uses are in heat exchangers, cooling plates, vacuum tools, and structural components.
Submerged bobbin tools, or SBTs, are specially designed to form integral sub‐surface channels (tunnels) within components. Like a conventional bobbin tool (BT) used in friction stir welding (FSW), an SBT has two opposing shoulders spaced apart along the bobbin or probe section of the tool. Unlike a conventional BT, however, an SBT is used to form enclosed internal channels by the distal shoulder – the one located at the terminal end of the bobbin – being submerged within the workpiece while the opposite shoulder rides along on an outer surface of the workpiece during processing.
Similar to other BT designs, the opposing shoulders of SBT designs serve to contain a substantial portion of stirred material generated throughout the progression of the process. As a result, process forces produced parallel to the tool’s axis of rotation are reacted between the opposing shoulders. Compared to single‐sided tool designs having one shoulder, SBT tools therefore produce relatively lower out‐of‐plane forces that must be supported by the fabrication equipment. In turn, fabrication equipment for internal channel production by SBTs have reduced force and stiffness requirements compared to equipment for single‐sided channeling methods.
Preliminary studies show that this innovation can be deployed on CNC machining centers, FSP purpose-built equipment and industrial robots to produce 3‐D curvilinear subsurface integral channels in complex‐shaped parts.
Source:
AeroMat 2022 Session "Welding & Joining II"
Contact Dwight Burford for more details.