Journal
MECHANICS OF ADVANCED MATERIALS AND STRUCTURES
Volume -, Issue -, Pages -Publisher
TAYLOR & FRANCIS INC
DOI: 10.1080/15376494.2023.2175397
Keywords
Auxetic; mechanical metamaterials; aluminum foam-filled tube; double tube; energy absorption
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In this study, a double tubular structure composed of auxetic tubular structures and aluminum foam was proposed. The mechanical properties of aluminum foam-filled auxetic tubular structures and conventional tubes were compared under uniaxial compression, both numerically and experimentally. The results showed that the aluminum foam-filled auxetic double tubular structures exhibited stable compression deformation and superior energy absorption, due to the stronger interaction between the aluminum foam and the auxetic tube. Although the bearing capacity of the double tubular structures was lower, it overcame the drawbacks of larger peak force and load fluctuation in conventional tubes.
In this work, a double tubular structure consisting of auxetic tubular structures and aluminum foam was proposed. The mechanical properties of the aluminum foam-filled auxetic tubular structures and aluminum foam-filled conventional tubes under uniaxial compression were compared numerically and experimentally. Compared with conventional aluminum foam-filled tubular structures (FFT), aluminum foam-filled auxetic double tubular structures (FFADT) have stable compression deformation and superior energy absorption because of stronger interaction between the aluminum foam and the auxetic tube. Although the FFADT exhibits lower bearing capacity but overcomes the shortcomings of larger peak force and larger load fluctuation that usually occurs in conventional tubes.
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