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Solidification modes during additive manufacturing of steel revealed by high-speed X-ray diffraction

Hans-Henrik König, Niklas Pettersson, A. Durga, S. Van Petegem, Daniel Grolimund, Andrew Chihpin Chuang, Qilin Guo, Lianyi Chen, Christos Oikonomou, Fan Zhang, Greta Lindwall

2023Acta Materialia76 citationsDOIOpen Access PDF

Abstract

Solidification during fusion-based additive manufacturing (AM) is characterized by high solidification velocities and large thermal gradients , two factors that control the solidification mode of metals and alloys. Using two synchrotron-based, in situ setups, we perform high-speed X-ray diffraction measurements to investigate the impact of the solidification velocities and thermal gradients on the solidification mode of a hot-work tool steel over a wide range of thermal conditions of relevance to AM of metals. The solidification mode of primary δ -ferrite is observed at a cooling rate of 2.12 × 10 4 K/s, and at a higher cooling rate of 1.5 × 10 6 K/s, δ -ferrite is suppressed, and primary austenite is observed. The experimental thermal conditions are evaluated and linked to a Kurz-Giovanola-Trivedi (KGT) based solidification model. The modelling results show that the predictions from the multicomponent KGT model agree with the experimental observations. This work highlights the role of in situ XRD measurements for a fundamental understanding of the microstructure evolution during AM and for validation of computational thermodynamics and kinetics models , facilitating parameter and alloy development for AM processes .

Topics & Concepts

Materials scienceAusteniteThermalDiffractionMicrostructureFerrite (magnet)AlloyWork (physics)SynchrotronSynchrotron radiationFusionMetallurgyThermodynamicsComposite materialOpticsLinguisticsPhysicsPhilosophyAdditive Manufacturing Materials and ProcessesHigh Entropy Alloys StudiesWelding Techniques and Residual Stresses
Solidification modes during additive manufacturing of steel revealed by high-speed X-ray diffraction | Litcius