METAMET project set to optimise Additive Manufacturing with lattice metamaterials

March 28, 2024

A consortium is embarking upon METAMET, a new project proposing a digital framework for the design and Additive Manufacturing of lattice metamaterials (Courtesy TWI Ltd)
A consortium is embarking upon METAMET, a new project proposing a digital framework for the design and Additive Manufacturing of lattice metamaterials (Courtesy TWI Ltd)

A consortium of companies and research organisations is embarking on METAMET, a new project proposing a digital framework for the design and Additive Manufacturing of lattice metamaterial structures. The consortium, including Authentise, NS85 Ltd, Holdson Limited, and the Joining 4.0 Innovation (J4IC – a strategic partnership between Lancaster University and TWI Ltd) who were behind the winning proposal, have successfully secured funding from Innovate UK under the UK Government’s Resource Efficiency for Materials and Manufacturing (REforMM) programme.

The aim of the project is to identify a comprehensive and traceable way of optimising additively manufactured parts using lattices; namely intricate, repeated patterns that can give additional material properties, such as directional cooling, reduced vibration and enhanced crack resistance, to parts.

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Metallic microlattices have the ability to enable extremely lightweight structures, with high strength-to-weight ratios that also have energy absorption properties, mechanical strength, thermal management capacity and design versatility. This makes the resultant lightweight structures highly appealing to industries including aerospace, automotive and transportation where weight reduction is crucial to fuel efficiency and overall performance.

However, there are challenges in designing and manufacturing lattice metamaterials, including: the handling of what are intricate and geometrically complex structures; the identification of suitable materials; the need to develop sophisticated new fabrication techniques that can enable the production of precise structures; and addressing scale and size limitations to facilitate mass production while maintaining the desired properties.

The project’s response to these is to make use of advanced computational tools, optimisation techniques, material science expertise and innovative manufacturing approaches to overcome the challenges involved and achieve the desired mechanical, acoustic or electromagnetic properties in lattice metamaterials.

As such, research and development activities in METAMET will be targeted at delivering an end-to-end digital framework covering the whole spectrum of steps required to design and manufacture metallic microlattices. Work will include materials selection (such as aluminium, titanium and/or steel alloys); concept design of the lattice structure and cell geometry; design implementation using computer-aided design (CAD); simulation and optimisation to evaluate properties such as the structure, behaviour, strength-to-weight and energy absorption capacity; Additive Manufacturing using powdered metal; post-processing; testing; and characterisation.

Following validation of the design and fabrication stages, the final goal will be to scale up manufacturing for real-world deployment via options such as the use of custom manufacturing equipment or partnering with specialised manufacturing facilities.

Professor Darren Williams, Director of the Joining 4.0 Innovation Centre (J4IC) said, “J4IC is delighted to be part of this exciting new project which has the potential to offer substantial benefits to major industry in the manufacturing of lightweight parts and structures.  As well as developing proprietary new technologies, METAMET will support the wider environmental goals of reduced materials consumption and carbon emissions by enabling the production of lightweight parts using less energy.  In turn this will contribute to the lightweighting of larger structures and their fuel efficiency when operational.”

The METAMET project secured funding from Innovate UK under grant agreement No. 10081046 and will have an eighteen-month duration.

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