US Navy installs Phillips Additive Hybrid metal 3D printing solution on USS Bataan
A hybrid metal 3D printing solution from Phillips Corporation has been installed on the USS Bataan. The system combines Meltio laser metal deposition technology with a CNC control mill from Haas. The solution will be used for the manufacturing of spare parts and repairs on board the Bataan.
Phillips says that the TM-1 platform that is included in the hybrid system has been proven to operate reliably in an afloat environment aboard several aircraft carriers. Integrating additive and subtractive manufacturing technologies within one system increases efficiency and reduces waste when compared with traditional machining according to Phillips.
The US Navy advanced efforts to improve self-sufficiency for deployed ships and their crews, while reducing supply chain lead times by using AM. According to Phillips, this is the first permanent installation of a metal 3D printer aboard a ship.
U.S. Navy Takes Falkonry AI to the High Seas for Increased Equipment Reliability and Performance
Falkonry today announced a big leap for Falkonry AI with the Office of Naval Research deploying its AI applications to advance equipment reliability on the high seas. This AI deployment is carried out with a Falkonry-designed reference architecture using NVIDIA accelerated computing and Oracle Cloud Infrastructure’s (OCI’s) distributed cloud. It enables better performance and reliability awareness using electrical and mechanical time series data from thousands of sensors at ultra-high speed.
Falkonry has designed its automated anomaly detection application, Falkonry Insight, to take advantage of Edge computing capabilities that are now available for high security and edge-to-cloud connectivity. Falkonry Insight includes a patent-pending, high-throughput time series AI engine that inspects every sensor data point to identify reliability and performance anomalies along with their contributing factors. Falkonry Insight organizes the information needed by operations teams to determine root causes and automatically informs operations teams to take rapid action. By inserting an edge device into the US Navy’s operational environment that can process data continuously, increasingly sophisticated naval platforms can maintain high reliability and performance out at sea.