https://www.nist.gov/publications/evolution-cooling-length-parts-created-through-laser-powder-bed-fusion-additive
Additive manufactured (AM) components, specifically those created through laser powder bed fusion (LPBF) methods, exhibit an abundance of surface textures of va
evolutioncoolinglengthpartscreated
https://www.sigmaaldrich.com/PL/en/tech-docs/paper/366250
Rapid additive manufacturing of MR compatible multipinhole collimators with selective laser melting of tungsten powder. by Karel Deprez, Stefaan Vandenberghe,...
additive manufacturingrapidmrcompatiblecollimators
https://www.nist.gov/publications/method-characterizing-model-fidelity-laser-powder-bed-fusion-additive-manufacturing
As Additive Manufacturing (AM) matures as a technology, predictive modeling methods have become increasingly sought after as a means for process planning, monit
methodmodelfidelitylaserpowder
https://3dprint.com/256209/embargoed-until-10-15-19-800-am-edt-optomec-releases-lens-laser-deposition-head-ldh-3-x-additive-manufacturing/
Optomec has just announced the LENS Laser Deposition Head (LDH 3.X) for additive manufacturing users around the world in need of a powerful optics system....
laser depositionoptomecreleaseslenshead
https://www.nist.gov/publications/hybrid-modeling-approach-melt-pool-prediction-laser-powder-bed-fusion-additive
Multi-scale multi-physics computational models are a promising tool to provide detailed insights to understand the process-structure-property-performance relati
modeling approachhybridmeltpoolprediction