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Tailoring magnetic hysteresis of additive manufactured Fe-Ni permalloy via multiphysics-multiscale simulations of process-property relationships

Yangyiwei Yang, Timileyin David Oyedeji, Xiandong Zhou, Karsten Albe, Bai‐Xiang Xu

2023npj Computational Materials17 citationsDOIOpen Access PDF

Abstract

Abstract Designing the microstructure of Fe-Ni permalloy produced by additive manufacturing (AM) opens new avenues to tailor its magnetic properties. Yet, AM-produced parts suffer from spatially inhomogeneous thermal-mechanical and magnetic responses, which are less investigated in terms of process modeling and simulations. We present a powder-resolved multiphysics-multiscale simulation scheme for describing magnetic hysteresis in AM-produced material, explicitly considering the coupled thermal-structural evolution with associated thermo-elasto-plastic behaviors and chemical order-disorder transitions. The residual stress is identified as the key thread in connecting the physical processes and phenomena across scales. By employing this scheme, we investigate the dependence of the fusion zone size, the residual stress and plastic strain, and the magnetic hysteresis of AM-produced Fe 21.5 Ni 78.5 on beam power and scan speed. Simulation results also suggest a phenomenological relation between magnetic coercivity and average residual stress, which can guide the magnetic hysteresis design of soft magnetic materials by choosing appropriate processing parameters.

Topics & Concepts

Materials scienceCoercivityResidual stressPermalloyMultiphysicsMagnetic hysteresisMicrostructureHysteresisThermalMultiscale modelingPermeability (electromagnetism)Composite materialCondensed matter physicsMechanicsMagnetizationMechanical engineeringFinite element methodMagnetic fieldThermodynamicsPhysicsQuantum mechanicsChemistryBiologyEngineeringMembraneGeneticsComputational chemistryMicrostructure and mechanical propertiesAdditive Manufacturing Materials and ProcessesMicrostructure and Mechanical Properties of Steels
Tailoring magnetic hysteresis of additive manufactured Fe-Ni permalloy via multiphysics-multiscale simulations of process-property relationships | Litcius