StirSense
Lead Participant:
BACLOR LIMITED
Abstract
Friction Stir Welding (FSW) is a solid-state joining technique used in industries such as aerospace, automotive, defence and shipbuilding. FSW offers many benefits compared to traditional welding methods, but ensuring high-quality welds currently relies on non-destructive post-weld inspections, a time-consuming and potentially expensive process.
This project will address this challenge by demonstrating the feasibility of deploying Open Standard 5G and IoT sensors in an industrial setting enabling real-time, data-driven quality assurance in FSW.
By demonstrating the feasibility of OpenRAN 5G and IoT technology, this project has the potential to demonstrate quality assurance in an industrial environment for a novel, sustainable joining process, leading to significant improvements in production efficiency, cost savings, and overall weld quality.
This project will address this challenge by demonstrating the feasibility of deploying Open Standard 5G and IoT sensors in an industrial setting enabling real-time, data-driven quality assurance in FSW.
By demonstrating the feasibility of OpenRAN 5G and IoT technology, this project has the potential to demonstrate quality assurance in an industrial environment for a novel, sustainable joining process, leading to significant improvements in production efficiency, cost savings, and overall weld quality.
Lead Participant | Project Cost | Grant Offer |
|---|---|---|
Participant |
||
| BACLOR LIMITED |
People |
ORCID iD |
| Daniel Lord (Project Manager) |