3D-printed Tungsten
ORNL researchers used electron beam additive manufacturing technology to achieve first defect-free complex 3D-printed tungsten parts for use in extreme environments.
Read moreORNL researchers used electron beam additive manufacturing technology to achieve first defect-free complex 3D-printed tungsten parts for use in extreme environments.
Read moreScientists and engineers have developed a new coating method for powder particles that are used in selective laser sintering polymer 3D printing.
Read moreSwiss researchers presented a pioneering approach to defect detection during fabrication of metal parts using LPBF method of additive manufacturing with the help of acoustic monitoring.
Read moreCity University of Hong Kong and Shanghai Jiao Tong University researchers fabricated fatigue resistant aluminium alloy using LPBF additive manufacturing process.
Read moreUsing neutrons to see the metal AM process at the atomic level, ORNL scientists have shown that they can measure strain in a material as it evolves and track how atoms move in response to stress.
Read moreTaking a cue from the structural complexity of trees and bones, WSU engineers have created a way to 3D‑print two types of steel in the same circular layer using two welding machines.
Read moreA team of researchers has created a new class of dual-phase titanium alloy materials that are strong and not brittle under tension, by integrating alloy and 3D-printing process designs.
Read morePurdue researchers combined electric poling and 3D printing into a single step manufacturing process.
Read moreLLNL have developed a method for detecting and predicting strut defects in 3D printed metal lattice structures.
Read moreNew superalloy can access previously unobtainable combinations of high strength, low weight and high-temperature resiliency
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