![]() Bodycote receives SBTi approval for emissions targetsīodycote plc, headquartered in Macclesfield, Cheshire, UK, has announced that its near-term science-based emissions t.PyroGenesis Canada, Inc., Montreal, Québec, Canada, has announced that Olivier Dubois has joined the company as Prin. PyroGenesis expands European team with Olivier Dubois. ![]() »Ĭzinger Vehicles has partnered with motorsport gearbox specialist Xtrac to produce an additively manufactured high-pe. Desktop Metal adds three new metals, C18150, Ti6Al4V and 304Lĭesktop Metal, Boston, Massachusetts, USA, has qualified a further three metals for use in its Binder Jet Additive Ma.Holo, Newark, California, USA, has appointed John Buffington as its Head of Product Engineering. Renishaw, Wotton-Under-Edge, Gloucestershire, UK, has collaborated with medical devices specialist Permedica, Lecco, Italy, to develop Additive Man. Permedica adds three RenAM 500Q’s for mass production of medical components.Buffington joins the company following a seven-yea. Holo expands team announcing John Buffington as Head of Product Engineering.Oqton, Ghent, Belgium, has entered into a partnership with Farsoon Technologies, headquartered in Changsha, China, to provide a complete manufactur. Oqton and Farsoon partner to offer complete metal Additive Manufacturing workflow.Czinger Vehicles and Xtrac develop additively manufactured gearbox for 21C hypercarĬzinger Vehicles has partnered with motorsport gearbox specialist Xtrac to produce an additively manufactured high-performance gearbox case for use.By monitoring thermal emission, researchers could predict whether a strut was present or missing with accuracy of more than 94%, validating the mechanisms behind the observed thermal emissions through high-speed thermal and optical imaging, and simulations using the ALE3D (Arbitrary Lagrangian–Eulerian three-dimensional analysis) multiphysics simulation tool developed by LLNL.Ĭo-authors of “Detecting missing struts in metallic micro-lattices using high speed melt pool thermal monitoring” included LLNL scientists and engineers Gabe Guss, Saad Khairallah, William Smith, Philip DePond, Manyalibo “Ibo” Matthews and principal investigator Nick Calta. The team developed their defect detection/prediction method based on observations from the test builds, high-speed imaging and multi-physics simulations of the PBF-LB melt pool. This will allow a dynamic reaction and potentially the suppression of the defect before resuming printing of the rest of the build.” “At the moment, we are capable of detecting defects that span multiple layers, but in the future, new methods will be developed to identify defects within a printed layer. That means that the individual units within the solid - the atoms, in this case - are organized in a regularly repeating pattern.“For the first time, this quality-control process was studied in metallic lattices and we developed a methodology to detect defective struts with a missing bottom part,” stated Jean-Baptiste Forien, lead author and LLNL staff scientist. ![]() Metals are composed of atoms in ordered layers that form a three-dimensional, crystalline structure.
0 Comments
Leave a Reply. |