Details

Autor(en) / Beteiligte

• Marsavina, Liviu
• Kováčik, Jaroslav
• Linul, Emanoil

Titel

Experimental validation of micromechanical models for brittle aluminium alloy foam

Ist Teil von

• Theoretical and applied fracture mechanics, 2016-06, Vol.83, p.11-18

Ort / Verlag

Elsevier Ltd

Erscheinungsjahr

2016

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• •Micromechanical models are validated for brittle metallic foam.•Compression, tensile un-notched and notched, fracture toughness tests were performed.•Failure mechanism was investigated using Digital Image Correlation.•TCD parameters were determined using micromechanical modelling.•TCD approach was successfully applied to notched foam specimens. [Display omitted] Micromechanical models used to predict mechanical and fracture properties of brittle metallic foams are validated experimentally for closed-cell aluminium foam (AlSi12Mg0.6) prepared by powder metallurgy route. Compression, tensile, tensile on notched specimens and fracture toughness tests were carried on, and the results are presented together with micromechanical models from literature. Moreover, the Digital Image Correlation technique was applied to identify the failure mechanisms of aluminium foams. Finally, the Theory of Critical Distances was employed to predict the fracture load of notched specimens. The novelty of the study is that the inherent stresses and critical distances were obtained by employing micromechanical analysis.