THERMOPHYSICAL PROPERTIES OF HYPOEUTECTIC, EUTECTIC AND HYPEREUTECTIC Al-Si AUTOMOTIVE ALLOYS UNDER AGEING TREATMENT

Authors

  • Ahmed Asif Razin Department of Mechanical Engineering Bangladesh University of Engineering and Technology
  • Dewan Sal-Sabil Ahammed Department of Mechanical Engineering Bangladesh University of Engineering and Technology
  • Akib Abdullah Khan Department of Mechanical Engineering Bangladesh University of Engineering and Technology
  • Mohammad Salim Kaiser Innovation Centre International University of Business Agriculture and Technology

DOI:

https://doi.org/10.59957/jctm.v59.i3.2024.22

Keywords:

Al-Si alloys, T6 heat treatment, precipitates, age hardening, thermal conductivity, microstructure

Abstract

Influence of different levels of silicon under a variety of thermal treatment is investigated on the thermophysical behaviour of Al-Si-Cu-Mg automotive alloys. Conventional cast alloys are subjected to T6 heat treatment for age hardening. Hardness values, thermal conductivity along with microstructural observation under different heat-treated conditions are well thought-out to comprehend the ageing performance and the precipitation behaviour of the alloys. From these investigational results it is indicated that two successive hardening peaks take place in the aged
alloys. Ageing sequence consists of different phases like a supersaturated solid solution, GP zones, intermediate βʹʹ, intermetallic βʹ, equilibrium β and the Q phase but GP zones and the metastable phases are most likely responsible for these ageing peaks. Thermal conductivity decreases for these precipitates formation during ageing and increases for relieving the internal stress, dissolution of metastable phase and coarsening the precipitation of the alloys. Adding
up of Si to the alloy showed earlier ageing peaks with higher intensities intended for its increasing properties of heterogeneous nucleation and diffusion kinetics. After ageing around at 200°C for four hours the alloys offer the height hardness. Microstructural study reveals that eutectic silicon makes the grain boundary coarsen and beyond the eutectic composition the star-shaped blocky primary Si is formed. Subsequent to ageing at 350oC for one hour the alloys reach completely recrystallized state.

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Published

2024-05-07

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Section

Articles