Qiang Du scite author profile

Semi-continuous direct-chill (DC) casting holds a prominent position in commercial aluminium alloy processing, especially in production of large sized ingots.Macrosegregation, which is the non-uniform chemical composition over the length scale of a casting, is one of the major defects that occur during this process. The fact that macrosegregation is essentially unaffected by subsequent heat treatment (hence constitutes an irreversible defect) leaves us with little choice but to control it during the casting stage. Despite over a century of research in the phenomenon of macrosegregation in castings and good understanding of underlying mechanisms, the contributions of these mechanisms in the overall macrosegregation picture; and interplay between these mechanisms and the structure formation during solidification are still unclear. This review attempts to fill this gap based on the published data and own results. The following features make this review unique: results of computer simulations are used in order to separate the effects of different macrosegregation mechanisms. The issue of grain refining is specifically discussed in relation to macrosegregation. This report is structured as follows. Macrosegregation as a phenomenon is defined in the Introduction. In Part 2, direct-chill casting, the role of process parameters and the evolution of structural features in the as-cast billets are described. In Part 3, macrosegregation mechanisms are elucidated in a historical perspective and the correlation with DC casting process parameters and structural features are made. The issue of how to control macrosegregation in direct-chill casting is also dealt with in Part 3. In Part 4, the effect of grain refining on macrosegregation is introduced, the current understanding is described and the contentious issues are outlined. The review is finished with conclusion remarks and outline for the future research.

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Concrete with recycled concrete aggregate and crushed clay bricks

Yang

Bao

2011

Construction and Building Materials

346

114

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An extension of the Kampmann–Wagner numerical model towards as-cast grain size prediction of multicomponent aluminum alloys

2014

Acta Materialia

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Tensile properties of graphene nano-platelets reinforced polypropylene composites

Liang

Tsui

et al. 2016

Composites Part B: Engineering

115

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Experimental study of structure formation in binary Al–Cu alloys at different cooling rates

Eskin¹,

Du²,

Ruvalcaba³

et al. 2005

Materials Science and Engineering: A

124

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Qiang Du

Macrosegregation in direct-chill casting of aluminium alloys

Concrete with recycled concrete aggregate and crushed clay bricks

An extension of the Kampmann–Wagner numerical model towards as-cast grain size prediction of multicomponent aluminum alloys

Tensile properties of graphene nano-platelets reinforced polypropylene composites

Experimental study of structure formation in binary Al–Cu alloys at different cooling rates

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