Effect of foaming temperature on the mechanical properties of produced closed-cell A356Aluminum foams with melting method

In this study an attempt was carried out to determine the effect of production temperature on the mechanical properties and energy absorption behavior of closed-cell A356 alloy foams under uniaxial compression test. For this purpose, three different A356 alloy closed-cell foams were synthesized at t...

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Bibliographic Details
Published in:Metals and materials international 2014, 20(4), , pp.757-763
Main Authors: Movahedi, N., Mirbagheri, S. M. H., Hoseini, S. R.
Format: Article
Language:English
Subjects:
Aluminum base alloys
Characterization and Evaluation of Materials
Chemistry and Materials Science
Compression tests
Density
Energy absorption
Engineering Thermodynamics
Foamed metals
Foaming
Foams
Heat and Mass Transfer
Machines
Magnetic Materials
Magnetism
Manufacturing
Materials Science
Mechanical properties
Metallic Materials
Porosity
Processes
Solid Mechanics
재료공학
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Summary:In this study an attempt was carried out to determine the effect of production temperature on the mechanical properties and energy absorption behavior of closed-cell A356 alloy foams under uniaxial compression test. For this purpose, three different A356 alloy closed-cell foams were synthesized at three different casting temperatures, 650 °C, 675 °C and 700 °C by adding the same amounts of granulated calcium as thickening and TiH 2 as blowing agent. The samples were characterized by SEM to study the pore morphology at different foaming temperatures. Compression tests of the A356 foams were carried out to assess their mechanical properties and energy absorption behavior. The results indicated that increasing the foaming temperature from 650 °C to 675 °C and 700 °C reduces the relative density of closed cell A356 alloys by 18.3% and 38% respectively and consequently affects the compressive strength and energy absorption of cellular structures by changing them from equiaxed polyhedral closed cells to distorted cells. Also at 700 °C foaming temperature, growth of micro-pores and coalescence with other surrounding pores leads to several big voids.
ISSN:1598-9623
2005-4149
DOI:10.1007/s12540-014-4021-2