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The non-dendritic microstructure arising from grain boundary formation and wetting: A phase-field simulation and experimental investigation of semi-solid deformation

Jian-kun Ren, Mingyue Sun, Yun Chen, Bin Xu, Weifeng Liu, Haiyang Jiang, Yanfei Cao, Dianzhong Li

2022Materials & Design14 citationsDOIOpen Access PDF

Abstract

The semi-solid metal forming process can prevent the formation of unpopular dendritic microstructures but the mechanism remains unclear. To explore the underlying causes, a challenging phase-field simulation was performed, supported by a semi-solid experiment. The simulation managed to couple dendritic growth with melt flow and solid deformation, a process that few existing models or in situ experimental techniques could analyze. This study found that under deformation, grain boundary formation and wetting play a pivotal role in the formation of non-dendritic structures: it is the grain boundary formation and wetting that split the bending side-branch from dendrite trunk; the detached side-branch could then evolve into a non-dendritic morphology. The simulation showed that wetting could finish almost immediately after a moderate bending. This process appears similar to but is essentially distinct from the conventional explanation that describes dendrite fragmentation as mechanical breakage.

Topics & Concepts

Materials scienceBreakageWettingDendrite (mathematics)MicrostructureGrain boundaryBendingComposite materialDeformation (meteorology)Phase (matter)GeometryChemistryMathematicsOrganic chemistryAluminum Alloy Microstructure PropertiesSolidification and crystal growth phenomenaMetallurgy and Material Forming
The non-dendritic microstructure arising from grain boundary formation and wetting: A phase-field simulation and experimental investigation of semi-solid deformation | Litcius