Keyhole pores reduction in laser powder bed fusion additive

Evolution of Laser Powder Bed Fusion Additive Manufacturing of Copper and Copper Alloys (Part-2) – Ardent Metallurgist

PDF) Process-structure multi-objective inverse optimisation for additive manufacturing of lattice structures using a physics-enhanced data-driven method

Ho YEUNG, PhD

Understanding keyhole induced-porosities in laser powder bed fusion of aluminum and elimination strategy - ScienceDirect

Recent innovations in laser additive manufacturing of titanium alloys - IOPscience

Deep learning-based data registration of melt-pool-monitoring images for laser powder bed fusion additive manufacturing - ScienceDirect

M. DONMEZ, National Institute of Standards and Technology, NIST, Intelligent Systems Division

Metals, Free Full-Text

Sensors, Free Full-Text

Schematic diagrams of process map for laser powder bed fusion of

Keyhole pores reduction in laser powder bed fusion additive manufacturing of nickel alloy 625 - ScienceDirect

Jorge NEIRA, National Institute of Standards and Technology, NIST, Physical Measurement Laboratory (PML)

PDF) LASER PATH PLANNING AND POWER CONTROL STRATEGIES FOR POWDER BED FUSION SYSTEMS

Mitigating keyhole pore formation by nanoparticles during laser powder bed fusion additive manufacturing - ScienceDirect