Titomic Limited has entered into a commercial research and development agreement with RMIT to be conducted on behalf of Lockheed Martin – a major aerospace and defence company.
The study will assess the capabilities of Titomic Kinetic Fusion (TKF) to create structural satellite parts made from a high-performance metal. Titomic’s participation in this joint research project will analyse the various capabilities of both traditional and additive manufacturing methods relative to radiation shielding within satellites.
“Titomic is excited to be involved in this RMIT joint research initiative alongside the global defence and aerospace prime, Lockheed Martin, which will provide significant mutual benefit for all involved. As we demonstrate the unique capabilities of Titomic Kinetic Fusion® for the additive manufacture of satellite structures, using high-performance metals and superalloys, we are also enabling exponentially faster production to reduce lead-times for the space industry, from months to hours, compared to traditional processes,” Jeff Lang, Titomic managing director, said.
Under this research agreement, Titomic will manufacture high-performance, metal demonstration samples for satellite parts using its industrial-scale additive manufacturing process, Titomic Kinetic Fusion. This research project may also lead to commercial opportunities for Titomic within the space and defence sectors following the successful validation of the additively manufactured demonstration satellite parts.
The small satellite components (cubes) market for commercial and government applications in the main areas of telecommunications, broadcasting, and data communications, with the market size anticipated to grow from US$4.18bn in 2018 to US$18.30bn by 2026, at a CAGR of 20.28 per cent.