For Additive Manufacturing to succeed in the volume production of components for the mainstream automotive industry, it will not only require the creation of an effective AM culture within automotive producers, but also a radical re-evaluation of what different industries need from AM machine manufacturers. Jeff Kerns visited GM’s Additive Industrialization Center (AIC), in Warren, Michigan, USA, for Metal AM magazine and spoke at length with the centre’s team about its role in the exploration of AM for automotive, and how new machine designs will increase AM’s success in the automotive industry. [First published in Metal AM Vol. 8 No. 3, Autumn 2022]
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As product developers become more and more aware of the possibilities of metal Additive Manufacturing and the design freedom it offers, metal Laser Beam Powder Bed Fusion (PBF-LB/M) has established itself for series applications in numerous industries. One novel capability of PBF-LB/M which has yet to be fully explored is the production of multi-material metal parts, which would offer huge new potential for designers in many industries. Prof Dr-Ing Christian Seidel looks at methods and solutions for the AM of parts consisting of two arbitrarily distributed metal alloys and presents use cases with the potential for series production by multi-material PBF-LB/M in the near future. [First published in Metal AM Vol. 8 No. 2, Summer 2022]
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In 2018, a consortium of twenty-three companies, managed by DNV and Berenschot, started a project, ProGRAM JIP, to produce a guideline formulating the necessary requirements to introduce components made by Additive Manufacturing into the oil, gas and maritime industry. This was followed, in May 2020, by ProGRAM JIP Phase II, again managed by DNV and supported by Berenschot. The participants in Phase II spanned the entire value chain, from end-users and OEMs to service providers, material suppliers and testing companies. Here, DNV’s Sastry Yagnanna Kandukuri and Berenschot’s Onno Ponfoort present the consortium’s preliminary Phase II findings. [First published in Metal AM Vol. 8 No. 2, Summer 2022]
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It is too easy to look at metal Additive Manufacturing technologies as neatly fitting into a small number of convenient process categories. The risk, in doing so, is that the best solution could be overlooked. One AM process that does not fit into such neat boxes is Xerox’s Liquid Metal Jetting. Whilst it falls, broadly, under the ISO/ASTM 52900:2015 category of Material Jetting, it is unique among metal AM processes. Here, Bender Kutub considers where it fits into the drive for supply chain resilience, and explores its market potential. [First published in Metal AM Vol. 8 No. 2, Summer 2022]
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X-ray powder diffraction (XRPD) has long been a powerful tool in metallurgy, but its unsuitability for parts with large grain sizes has made its use for the analysis of metal additively manufactured parts a challenge. In this article, Dr Scott Speakman, Malvern Panalytical, reports on a study in which specimens of soft magnetic Fe-Si steel were made by PBF-LB using a variety of raster and annealing strategies to produce specimens with large grain sizes. The X-ray diffraction data collected illustrates the tell-tale signs of poor crystallite sampling statistics. Speakman presents some strategies for recovering data fidelity with conventionally available options. [First published in Metal AM Vol. 8 No. 2, Summer 2022]
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Getting to grips with what is really happening in our industry can be a tricky business. Thankfully market analysis is available from a number of expert sources, with the longest established being the Wohlers Report. Here, Noah Mostow, Olaf Diegel, and Terry Wohlers share insight from the recently published 2022 edition, including an overview of machine sales, the acceptance of a new breed of technology suppliers, the growth of service companies, and the evolving metal AM material mix. [First published in Metal AM Vol. 8 No. 2, Summer 2022]
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Some companies have bolder missions than others. Whilst Elon Musk leverages metal Additive Manufacturing to transform space exploration, the founders of PrinterPrezz, Alan and Alexis Dang, Kishore Karkera and Shri Shetty, are aiming to do something equally bold with the same technology: bring safe, affordable, right-fit medical implants to the 97% of the world that can’t currently access them. Todd Grimm interviewed Alan Dang and Shri Shetty to discover more. [First published in Metal AM Vol. 8 No. 2, Summer 2022]
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In the men’s track cycling team pursuit qualifying at the 2020 Olympics, broadcast live to a global audience, a handlebar part produced by metal Additive Manufacturing failed with catastrophic consequences for the rider, Australia’s Alex Porter. Six months later, a forensic analysis of the incident was published as a 170-page report. The good news is that the company that made the AM part, along with the technology itself, were cleared of blame. So: what went wrong, and what lessons can be learned? Robin Weston digs into the details. [First published in Metal AM Vol. 8 No. 2, Summer 2022]
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Is it possible to actively monitor the huge volumes of data from a Laser Beam Powder Bed Fusion (PBF-LB) machine to identify, through machine learning (ML), build errors as they happen? To answer this question, Renishaw and Altair played a unique game of hide and seek. In this innovative experiment, an error was deliberately hidden in a build for an artificial intelligence (AI)-based solution to find. The hope? True ‘on the fly’ quality assurance for Additive Manufacturing processes for accelerated product development, and dramatically reduced post-production quality checks. [First published in Metal AM Vol. 8 No. 1, Spring 2022]
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Every so often, something comes along that gets the whole Additive Manufacturing industry talking. Over the past two years, few companies have generated as much intrigue as Seurat Technologies, the Lawrence Livermore National Laboratory spin-out named for the French pointillist, bringing with it a technology roadmap that promises to evolve metal AM to the crucial point of out-competing conventional manufacturing methods. In this Metal AM exclusive, James DeMuth, Seurat CEO, offers the deepest look yet into the technology behind his company’s promise. [First published in Metal AM Vol. 7 No. 1, Spring 2022]
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Bringing Additive Manufacturing in house is a big step for any company, but when you are at the small end of the ‘SME’ spectrum, it can be an especially bold move. Robin Weston recently visited Atherton Bikes, based in rural west Wales, to see how this specialist bike producer is enjoying ramping up in-house production of its titanium and carbon fibre performance mountain bikes on a new, four-laser Powder Bed Fusion (PBF-LB) machine from Renishaw. [First published in Metal AM Vol. 8 No. 1, Spring 2022]
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The metal Additive Manufacturing landscape is filled with ambitious, well-funded startups, all promising a wealth of materials innovation and ambitious value propositions. In contrast to these newcomers, Höganäs AB has been a powerful force in the metal powder market for near eighty years, producing half a million tonnes of metal powder annually. Is there a role for such a titan of Powder Metallurgy in the brave new world of AM? Emily-Jo Hopson-VandenBos spoke to Kennet Almkvist, president, Höganäs Customization Technologies, about what the company brings to the table. [First published in Metal AM Vol. 8 No. 1, Spring 2022]
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