Quasi-Statics Compressive Deformation Behavior of Aluminium Alloy (AlSi7Mg) Foam under Axial Loading by Dipen Kumar Rajak* in Research & Development in Material Science_ journal of materials science and technology
Abstract
In
this experiment, Al-Si7Mg Al-alloy and Al-Si7Mg Al-alloy 10wt% SiCp foams are
prepared by melt stir processing route. The numerous parameters specifically
cell size, cell wall, and
shape of cell is found out of the square foam samples. The results concluded
that the cell wall thickness is more in Al- Si7Mg Al-alloy 10wt% SiCp foam than
that of Al-Si7Mg Al-alloy foam. It is noted from compression test curve at
0.1/s that Al-Si7Mg Al-alloy 10wt% SiCp foam samples exits high plateau stress.
Meanwhile the compression test reveals the energy absorption rate per unit
volume of Al-Si7Mg 10wt% SiCp foam is more than Al-Si7Mg Al-alloy foam and
energy absorbed efficiency is found out of Al-Si7Mg and Al-Si7Mg 10wt% SiCp foam.
The microstructure of foam samples is characterized by field emission scanning
electron microscopy. The energy absorbing test efficiency is verified using the
Universal Testing Machine that works on variable strain rates. Compression is
performed on 0.1/s strain rate to obtain the results.
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