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Investigation of the Static Behavior and Failure Mechanisms of a 3D Printed Bio-Based Sandwich with Auxetic Core

Abstract : In this research contribution, the static behavior and failure mechanisms are developed for a three-dimensional (3D) printed dogbone, auxetic structure and sandwich composite using acoustic emissions (AEs). The skins, core and whole sandwich are manufactured using the same bio-based material which is polylactic acid reinforced with micro-flax fibers. Tensile tests are conducted on the skins and the core while bending tests are conducted on the sandwich composite. Those tests are carried out on four different auxetic densities in order to investigate their effect on the mechanical and damage properties of the materials. To monitor the invisible damage and damage propagation, a highly sensitive AE testing method is used. It is found that the sandwich with high core density displays advanced mechanical properties in terms of bending stiffness, shear stiffness, facing bending stress and core shear stress. In addition, the AE data points during testing present an amplitude range of 40–85dB that characterizes visible and invisible damage up to failure.
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https://hal.archives-ouvertes.fr/hal-02954691
Contributeur : Abderrahim El Mahi <>
Soumis le : jeudi 1 octobre 2020 - 11:36:48
Dernière modification le : lundi 8 février 2021 - 16:22:17

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Khawla Essassi, Jean-Luc Rebiere, Abderrahim El Mahi, Mohamed Amine Ben Souf, Anas Bouguecha, et al.. Investigation of the Static Behavior and Failure Mechanisms of a 3D Printed Bio-Based Sandwich with Auxetic Core. International Journal of Applied Mechanics, World Scientific Publishing, 2020, 12 (05), pp.2050051. ⟨10.1142/S1758825120500519⟩. ⟨hal-02954691⟩

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