Real-time or in situ monitoring can reduce cost and build time for Laser Powderbed Fusion (LPBF) Additive Manufacturing processes, which is important for the Air Force as well as the industry. Estimates indicate savings can be as much as $150,000 per machine per year. However, current real-time monitoring solutions use very expensive sensors and/or require a lot of calibration time to detect defects. The Air Force benefits from an accelerated integration of this technology across its service depots and labs. Moreover, the Air Force and its suppliers use different brands of machines, thus a brand agnostic solution is required. Addigurus real-time monitoring solution for additive manufacturing is based on utilizing low-cost, off-the-shelf sensors that can be deployed quickly and inexpensively. In the Phase I STTR, Addigurus current solution, using high-resolution optical cameras, was shown to be machine agnostic and rapidly deployable. Addigurus solution is agnostic to not only machine brand, but also material, lighting, angle of camera, and type of camera. In this Phase II STTR effort, Addiguru, in teaming with The Ohio State University (OSU), will demonstrate the ability of Addigurus solution to detect defects on a variety of different machine types which OSU possesses. Different materials, lighting, and camera angles will be used to prove the robustness of Addigurus solution. Addiguru will also collect data on OSUs LPBF machines and train Addigurus artificial intelligence (AI) models to improve flaw detection. The link between anomaly and flaw characterization will be addressed, and a machine control decision-tree will be created to mitigate flaws in situ. The success of this STTR will lead to completion of TRL 7 and the solution will be ready for deployment at REACTs machines at Tinker AF base and Air Force Research Labs (AFRL).
