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The effect of cooling plate, mechanical vibration, and grain refinement on the microstructure and hardness of A380 produced by sand mold

Emin Uslu, Ahmet Tığlı, Murat Çolak

2023International Journal of Cast Metals Research10 citationsDOI

Abstract

The mechanical properties of aluminium alloys can be increased by controlling the grain size and morphology of the alloy. In these studies, mechanical vibration, cooling slope plate (CSP), and grain refiner were applied on sand mould casting using A380 alloys. The hardness, and microstructure of the cast samples are investigated. These processes lead to the refinement of grain structures and a decrease in the tendency for dendritic structure formation. The Effect of the solidification time (modulus) on the microstructure is investigated. It was determined that the solidification time varies depending on the section thickness, which affects the SDAS values. It was observed that the lowest SDAS values were in CSP and the highest values were in grain refiners added casting. The lowest hardness value was recorded at CSP casting. Meanwhile, the grain refiner added vibration casting exhibits the highest hardness.

Topics & Concepts

Materials scienceMicrostructureCastingMoldGrain sizeAlloyMetallurgySand castingAluminiumModulusComposite materialIndentation hardnessAluminum Alloy Microstructure PropertiesAluminum Alloys Composites PropertiesMetallurgy and Material Forming
The effect of cooling plate, mechanical vibration, and grain refinement on the microstructure and hardness of A380 produced by sand mold | Litcius