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Numerical study of keyhole-induced porosity suppression mechanism in laser welding with beam oscillation

Lin Shi, Xin Li, Laihege Jiang, Ming Gao

2021Science and Technology of Welding & Joining63 citationsDOI

Abstract

The suppression mechanism of keyhole-induced porosity of oscillating laser beam welding (OLBW) was investigated via numerical simulation with keyhole dynamics and melt flow. The established model was verified by the corresponding experimental results. Results show that the weld porosity of 304 stainless steel can be controlled within 0.6% in OLBW and the large keyhole and well-balanced energy of the melt pool are contributing to porosity reduction. Also, two kinds of porosity suppression mechanisms in OLBW were clarified: first, the stirring effect of the oscillating beam keeps the bubble migration speed is superior in the competition with the solidification rate; second, bubbles can be absorbed timely by the dynamic keyhole when the moving speed of the keyhole reaches 504.6 mm s−1.

Topics & Concepts

KeyholePorosityMaterials scienceWeldingBubbleWeld poolOscillation (cell signaling)MechanicsLaser beam weldingBeam (structure)Computer simulationMechanism (biology)LaserComposite materialOpticsArc weldingPhysicsChemistryBiochemistryQuantum mechanicsGas tungsten arc weldingWelding Techniques and Residual StressesHydrogen embrittlement and corrosion behaviors in metalsHigh-Temperature Coating Behaviors
Numerical study of keyhole-induced porosity suppression mechanism in laser welding with beam oscillation | Litcius