Compressive mechanical properties of low-cost, aluminium matrix syntactic foams

•Expanded clay particles filled syntactic foams were produced by pressure infiltration.•By the selection of the matrix and heat treatment the mechanical properties can be set.•Relationship was found between the filler’s and the foams’ mechanical properties.•In the plateau region linear relationship...

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Bibliographic Details
Published in:Composites. Part A, Applied science and manufacturing Applied science and manufacturing, 2020-08, Vol.135, p.105923, Article 105923
Main Authors: Orbulov, Imre Norbert, Szlancsik, Attila, Kemény, Alexandra, Kincses, Domonkos
Format: Article
Language:English
Subjects:
A. Foams
B. Mechanical properties
B. Strength
D. Mechanical testing
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Summary:•Expanded clay particles filled syntactic foams were produced by pressure infiltration.•By the selection of the matrix and heat treatment the mechanical properties can be set.•Relationship was found between the filler’s and the foams’ mechanical properties.•In the plateau region linear relationship was found between the energy and the strain.•The investigated MMSFs showed plastic collapse failure, without any cleavage bands. Metal matrix syntactic foams (MMSFs) are high-performance foams consisting of a light-weight matrix and a set of porous fillers. The obstacle against the wide-spreading of MMSFs is their high cost (raised by the fillers’ price). In this study, low-cost MMSFs have been developed and characterised in the structure – mechanical properties relationship aspect. The MMSFs were produced by low-pressure infiltration from the combination of two matrices (Al99.5, AlSi9MgMn) and three nominal diameters (4, 8 or 11 mm) light expanded clay agglomerate particles (LECAPs). The density of the MMSFs was 1.38–1.53 g.cm−3. The mechanical properties were characterised by compressive tests. The effects of the alloying and T6 heat treatment were evaluated. Exponential relationships were found between the LECAPS’ fracture force values and the strength and absorbed energy values. The produced MMSFs proved equal or higher properties than the top materials investigated in the literature. The produced MMSFs showed plastic collapse failure.
ISSN:1359-835X
1878-5840
DOI:10.1016/j.compositesa.2020.105923