The Role of Foaming Agent and Processing Route in Mechanical Performance of Fabricated Aluminum Foams

Abstract The results of this study highlight the role of foaming agent and processing route in influencing the contamination of cell wall material by side products, which, in turn, affects the macroscopic mechanical response of closed-cell Al-foams. Several kinds of Al-foams have been produced with pure Al/Al-alloys by the Alporas like melt process, all performed with and without Ca additive and processed either with conventional TiH 2 foaming agent or CaCO 3 as an alternative one. Damage behavior of contaminations was believed to affect the micro-mechanism of foam deformation, favoring either plastic buckling or brittle failure of cell walls. No discrepancy between experimental values of compressive strengths for Al-foams comprising ductile cell wall constituents and those prescribed by theoretical models for closed-cell structure was found while the presence of low ductile and/or brittle eutectic domains and contaminations including particles/layers of Al 3 Ti, residues of partially reacted TiH 2 , Ca bearing compounds, etc. results in reducing the compressive strength to values close to or even below those of open-cell foams of the same relative density.