Litcius/Paper detail

Numerical investigation of asymmetric weld fusion geometry in laser welding of aluminium alloy with beam oscillation

Xi Chen, Nan Jiang, Meng Jiang, Yang Du, Shengchong Ma, Yuan Chen, Yuan Chen, Caiwang Tan, Zhenglong Lei, Sicong Zhao, Yanbin Chen, Yanbin Chen

2022Science and Technology of Welding & Joining28 citationsDOI

Abstract

In this work, the asymmetric weld fusion geometry in oscillating laser beam welding (OLBW) of aluminium alloy was reported and investigated using a numerical approach. A multi-physics heat transfer and fluid flow model of OLBW was developed and validated with the corresponding experimental results. The weld fusion geometry, temperature fields, and fluid flow behaviours for four commonly used oscillation modes, line, circle, eight, and infinity, were calculated to analyse the origin of the asymmetric weld fusion geometry. The results show the asymmetry of local heat input along beam travelling path and the fluid flow pattern in the molten pool are the main factors that result in the asymmetric weld fusion geometry in OLBW.

Topics & Concepts

WeldingFusionOscillation (cell signaling)Materials scienceLaser beam weldingGeometryHeat transferWeld poolMechanicsAluminiumFusion weldingBeam (structure)AlloyFlow (mathematics)Work (physics)Fluid dynamicsMetallurgyPhysicsOpticsMathematicsChemistryThermodynamicsArc weldingGas tungsten arc weldingBiochemistryLinguisticsPhilosophyWelding Techniques and Residual StressesAdvanced Welding Techniques AnalysisAdvanced machining processes and optimization