6K Additive's Sustainably Produced Tungsten Powder is Qualified for Use With Wayland Additive NeuBeam Technology
The qualification enables the production of hard-to-process tungsten powder to produce additive manufacturing parts for new nuclear applications, hypersonics as well as other applications in aerospace that require high temperature.
PITTSBURGH and HUDDERSFIELD, England, June 21, 2023 /PRNewswire/ -- 6K Additive, a division of 6K Inc. and leader in the sustainable production of materials for additive manufacturing, and Wayland Additive, developer of the NeuBeam metal additive manufacturing (AM) process, have announced that 6K Additive's sustainably produced tungsten powder has been qualified for processing by Wayland's NeuBeam print process to address new applications with parts made in the nuclear, aerospace and hypersonic sectors. This collaboration and qualification of 6K Additive's tungsten powder will set the standard for high-strength, heat resistant parts that are printed using the NeuBeam technology.
Tungsten is a refractory metal with the highest melting point of any metal at 3422°C / 6191°F making processing exceptionally challenging. Tungsten is known for its exceptional hardness, high melting point, and excellent thermal conductivity. It has been widely used in various industries including aerospace, defense, energy and medical where its unique properties are highly sought after. The combination of the NeuBeam EBM technology and 6K Additive produced tungsten powder also addresses the requirements sought after in the nuclear market.
Will Richardson, CEO of Wayland Additive explained: "Wayland Additive has removed the barriers associated with traditional e-beam technologies with our NeuBeam process, allowing a wider range of metals and alloys to be additively processed. 6K Additive can produce these hard-to-process materials at scale, ready for use in the NeuBeam enabled Calibur3 system. We are particularly excited about the opportunities we are uncovering here in the UK for nuclear applications which require the material properties of tungsten."
Frank Roberts, President of 6K Additive added: "The UniMelt process can create a virtually infinite range of materials, including hard-to-manufacture metals and alloys. While these materials have exceptional properties, they are equally hard to process with traditional AM technologies and often present commercial challenges due to their high cost. Through the combination of our two innovative technologies, 6K Additive and Wayland can produce and process metals that have previously proved elusive. The exceptional properties of refractory metals like tungsten can now be exploited fully through additive manufacturing, opening up exciting new applications in the nuclear, aerospace and defense sectors."
6K Additive's production-scale microwave plasma process, UniMelt®, precisely spheroidizes metal powders while controlling the chemistry and porosity of the final product. This revolutionary technology uses the microwave plasma process to manufacture many of the difficult to produce metal powders including refractories like tungsten, rhenium, tantalum, niobium and molybdenum. Yields of greater than 90% within the desired particle size as well as the ability to use scrap and revert as feedstock makes the process significantly more environmentally sustainable and commercially viable compared with traditional atomization technologies.
Wayland Additive's NeuBeam is an e-beam powder bed fusion (PBF) process that effectively neutralizes the charge accumulation generated by the electron beam, which is a major limitation of traditional e-beam technologies. Eliminating the charge removes the need for pre-sintering of the bed, allowing parts to be easily removed without a hardened sinter cake. The NeuBeam process can produce fully dense parts in a wide range of materials, many of which are not compatible with traditional e-beam or laser PBF processes such as refractory metals and highly reflective alloys.
6K Additive is the world's first producer of AM powder made from sustainable sources and offers a full suite of premium powder including nickel, titanium, copper, stainless steel, aluminum alloys and refractory metals such as tungsten, niobium (C103) and rhenium. The proprietary UniMelt system is the world's only microwave production-scale plasma system, with a highly uniform and precise plasma zone with zero contamination and high throughput production capabilities. The UniMelt process produces powders that are truly spherical, void of porosity and satellites, with better flowability than other processes. Companies interested in working with 6K Additive regarding their specific powder requirements are urged to visit 6K Additive's website 6KAdditive.com.
Notes for Editors
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About 6K
With sustainability at its core, 6K has developed UniMelt®, a proprietary advanced microwave plasma production system, to transform engineered materials into revolutionary products that advance industries across additive manufacturing, renewable energy, aerospace, consumer electronics, and more. 6K represents 6000 degrees, both the temperature of the operation of UniMelt®, the world's only microwave production scale plasma system, and the temperature of the sun's surface. 6K was founded in North Andover, Massachusetts.
The 6K Energy division is focused on the production of low-cost, sustainable, and domestically produced battery material accelerating the pace of battery production and adoption of electric vehicles. The 6K Additive division specializes in sustainably sourced, AM metal powders production and reclamation, using a proprietary milling and cleaning process that ensures contamination-free, high-quality powders. For more information, visit www.6Kinc.com.
About Wayland Additive
Wayland Additive Limited is a UK- based company pushing the boundaries of electron beam 3D printing. Wayland's goal is to develop, manufacture and sell metal Additive Manufacturing ("AM" – 3D printing) machines to industrial end-users such as major players in the aerospace and medical industries.
Wayland's technology is based around highly sophisticated evolutions from the worlds of scanning electron microscopy and electron beam lithography. As a result of these innovations the machines offer higher productivity, unparalleled process monitoring and control, and versatility in materials.
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