Keyhole pores reduction in laser powder bed fusion additive
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Mitigating keyhole pore formation by nanoparticles during laser powder bed fusion additive manufacturing - ScienceDirect
Metals, Free Full-Text
The role of side-branching in microstructure development in laser powder-bed fusion
Micromachines, Free Full-Text
PDF) Process-structure multi-objective inverse optimisation for additive manufacturing of lattice structures using a physics-enhanced data-driven method
Jorge NEIRA, National Institute of Standards and Technology, NIST, Physical Measurement Laboratory (PML)
Operando tomographic microscopy during laser-based powder bed fusion - Abstract - Europe PMC
Metals, Free Full-Text
Felix KIM, Mechanical Engineer, PhD, National Institute of Standards and Technology, NIST, Intelligent Systems Division
M. DONMEZ, National Institute of Standards and Technology, NIST, Intelligent Systems Division
Porosity and solidification microstructure in AM 316L. a Keyhole pore.
A critical review on the effects of process-induced porosity on the mechanical properties of alloys fabricated by laser powder bed fusion
Keyhole fluctuation and pore formation mechanisms during laser powder bed fusion additive manufacturing
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