Dynamic Compression of Metal Syntactic Foam-Filled Aluminum Tubes
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Date
2024
Journal Title
Journal ISSN
Volume Title
Publisher
Springer
Open Access Color
Green Open Access
No
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Publicly Funded
No
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Impulse
Average
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Average
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Average
Abstract
The current research investigates the compressive properties of metal syntactic foam (MSF)-filled tubes at dynamic loads with an impact velocity of 4 m/s. For this purpose, A356 aluminum alloy syntactic foams were prepared using an infiltration casting technique with an incorporation of expanded perlite (EP) filler particles. The study involves the testing and comparison of both MSF samples and MSF-filled tubes under dynamic loading scenarios. In the case of MSF-filled tubes, aluminum tubes are either fully filled (FFT) or half-filled (HFT) with MSFs. The manufactured foams and foam cores have a similar macroscopic density across all tested samples. Under dynamic loading, the MSF, HFT, and FFT samples exhibit distinct and different deformation mechanisms. In MSFs, dynamic compression is controlled by shearing of the sample, whereas in HFTs and FFTs, dynamic deformation occurs through the folding and buckling of the tubes, accompanied by partial deformation of the MSF cores.
Description
Movahedi, Nima/0000-0001-8209-4415
ORCID
Keywords
deformation mechanism, dynamic loading, energy absorption, foam-filled tube, mechanical properties, metal syntactic foam
Fields of Science
Citation
WoS Q
Q3
Scopus Q
Q2
OpenCitations Citation Count
N/A
Source
Journal of Materials Engineering and Performance
Volume
34
Issue
Start Page
9557
End Page
9568
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Citations
CrossRef : 1
Scopus : 1
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Mendeley Readers : 6
SCOPUS™ Citations
1
checked on Apr 27, 2026
Web of Science™ Citations
1
checked on Apr 27, 2026
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144
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