Litcius/Paper detail

Magnetic modulation of keyhole instability during laser welding and additive manufacturing

Xianqiang Fan, Tristan G. Fleming, Samuel J. Clark, Kamel Fezzaa, Anna C. M. Getley, Sebastian Marussi, Hongze Wang, Chu Lun Alex Leung, Andrew Kao, Peter Lee

2025Science69 citationsDOI

Abstract

Keyhole instability during laser welding and laser powder bed fusion (LPBF) can cause keyhole collapse and pore formation. Using high-speed x-ray imaging, we demonstrate that the flow vortex-induced protrusion on the rear keyhole wall is crucial in initiating keyhole instability. Applying a transverse magnetic field suppresses the keyhole instability by driving a secondary thermoelectric magnetohydrodynamics (TEMHD) flow that alters the net flow vortex. This minimizes protrusions and large-amplitude keyhole oscillations. The suppression effectiveness depends on the laser scanning direction relative to the magnetic field orientation because this controls the Seebeck effect-induced Lorentz force's direction. We show that at LPBF length scales, electromagnetic damping is weak, and for alloys with a large Seebeck coefficient, TEMHD becomes the dominant mechanism controlling flow behind the keyhole.

Topics & Concepts

KeyholeWeldingInstabilityModulation (music)LaserMaterials scienceOpticsMetallurgyMechanicsPhysicsAcousticsAdditive Manufacturing Materials and ProcessesWelding Techniques and Residual StressesHigh Entropy Alloys Studies