A project using large-scale additive manufacturing (AM) to produce shipbuilding components has completed its second phase, with results showing strong potential to reduce greenhouse gas emissions, secure supply chains and deliver significant economic benefits for the maritime sector. The project’s redesigned metal component – a topology optimised tapping ring – delivered a 10% reduction in emissions, cut lead times by 90% and reduced vessel weight by 13% in testing.

Led by Glasgow-based Malin Marine Consultants (MMC), part of Malin Group, with support from the National Manufacturing Institute Scotland (NMIS) – operated by the University of Strathclyde – Marine Vessel Lightweighting (MariLight) 2.0 builds on an initial feasibility study aimed at shifting the sector away from traditional manual fabrication towards automated, flexible and environmentally friendly manufacturing approaches.

The redesigned part underwent rigorous hydrostatic and leak testing under sustained pressure, which project partner Lloyd’s Register witnessed to ensure independent verification of the tests – a crucial step towards wider sector adoption.

The tapping ring was manufactured using Direct Energy Deposition-Arc (DED-Arc) technology at NMIS’s Digital Factory – an AM process that builds metal parts layer by layer using advanced welding techniques. This enabled local, on-demand production of lighter, optimised components with minimal material waste.

Other project partners included BAE Systems, Caley Ocean Systems (part of the Pryme Group), Siccar, Altair and Hexagon Manufacturing Intelligence. Altair produced the topology-optimised design for the tapping ring using its design optimisation software (Altair Inspire and Altair Optistruct).

Hexagon provided advanced computational modelling solutions, simulating the DED-Arc process and assessing factors such as temperature gradients and distortion prediction, while Siccar delivered a secure data-sharing platform, enhancing supply chain transparency through data traceability and real-time access to verified information.

More information www.nmis.scot