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Scanning strategies effect on temperature, residual stress and deformation by multi-laser beam powder bed fusion manufacturing

Wenyou Zhang, Mingming Tong, Noel M. Harrison

2020Additive manufacturing126 citationsDOIOpen Access PDF

Abstract

Laser beam Powder Bed Fusion (PBF-LB) is an increasingly attractive technology due to its capability of manufacturing complex and customised metal parts. However, the build cycle time and resulting residual stress profiles are limiting a wider uptake of PBF-LB manufacturing. The incorporation of additional laser beams in a single build chamber, i.e. multi-laser beam Powder Bed Fusion (PBF-MLB) technology, has been proposed as the next generation of PBF-LB technology. A series of computational process simulations of PBF-MLB was carried out using a 3D coupled thermomechanical model to investigate optimum multi-laser scanning strategies. The influences of twelve different scanning strategies on temperature, the final residual stresses, the z- (build) direction deflections by dual Gaussian profile laser beams PBF-MLB were investigated. It was found that the 90° layer rotation is necessary to reduce the residual stress, and a ‘dual-laser following but time-delayed’ scanning strategy had the lowest final residual stress. Another scanning strategy (45° rotation approaching beam scanning) resulted in the lowest z-direction deflection for the dual laser beams PBF-MLB manufacturing. These findings provide insight and application of PBF-MLB finite element process simulation in improving industrial additive manufacturing of metal components.

Topics & Concepts

Residual stressMaterials scienceLaser scanningLaserFusionInertial confinement fusionBeam (structure)Composite materialDeflection (physics)ResidualRotation (mathematics)OpticsComputer scienceAlgorithmArtificial intelligencePhysicsLinguisticsPhilosophyAdditive Manufacturing Materials and ProcessesWelding Techniques and Residual StressesAdditive Manufacturing and 3D Printing Technologies
Scanning strategies effect on temperature, residual stress and deformation by multi-laser beam powder bed fusion manufacturing | Litcius