Influence of additional strut elements in 3D Re-Entrant auxetic unit cells on the damage and energy absorption properties
Künye
Kaya, Ali C., Boğoçlu, M., Korucu, A. (2024). Influence of additional strut elements in 3D Re-Entrant auxetic unit cells on the damage and energy absorption properties. Experimental Mechanics, 64, 639-653.Özet
Background Geometric parameter optimization, novel design, and mechanism modeling of auxetic materials have been
widely studied. However, manipulating the topology of the 3d printed auxetic unit cells and its influence on the damage
have yet to be explored.
Objective This study aims to characterize the energy absorption properties and damage mechanisms of the modified auxetic
unit cells.
Methods In the current study, bending-dominated re-entrant auxetic unit cells (Cell0), torsion-dominated auxetic unit cells
with cross elements (CellX), buckling-dominated auxetic unit cells with vertical elements (CellB), and bending-dominated
auxetic unit cells with panels (CellW) have been fabricated by FDM (Fused deposition modeling). Uniaxial compression
testing of the PLA (Polylactic acid) unit cells has been carried out, and a camera has observed their deformation behavior.
SR- µCT (Synchrotron radiation microtomography) and an SEM (Secondary electron microscope) accomplished further
damage analysis of the struts.
Results Adding additional struts hinders the lateral shrinking of the re-entrant auxetics, and re-entrant auxetic unit cells
with cross elements have shown higher energy absorption capacity and efficiency than others. The struts’ damage has been
governed by building direction, printed material, and strut dimensions. Intra-layer and interlayer fracture of the layers and
rupture in the circumferential direction of the PLA struts have been observed in the SR- µCT slices.
Conclusions By additional struts, it is possible to fabricate complex auxetic structures with enhanced energy absorption
properties, but their inherent characteristics dominate the damage of the struts in the auxetic unit cells.