The 3D-printed honeycomb metamaterials tubes with tunable negative poisson’s ratio for high-performance static and dynamic mechanical properties

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Abstract

The synthesized understanding of the mechanical properties of negative Poisson’s ratio (NPR) convex–concave honeycomb tubes (CCHTs) under quasi-static and dynamic compression loads is of great significance for their multifunctional applications in mechanical, aerospace, aircraft, and biomedical fields. In this paper, the quasi-static and dynamic compression tests of three kinds of 3D-printed NPR convex–concave honeycomb tubes are carried out. The sinusoidal honeycomb wall with equal mass is used to replace the cell wall structure of the conventional square honeycomb tube (CSHT). The influence of geometric morphology on the elastic modulus, peak force, energy absorption, and damage mode of the tube was discussed. The experimental results show that the NPR, peak force, failure mode, and energy absorption of CCHTs can be adjusted by changing the geometric topology of the sinusoidal element. Through the reasonable design of NPR, compared with the equal mass CSHTs, CCHTs could have the comprehensive advantages of relatively high stiffness and strength, enhanced energy absorption, and damage resistance. The results of this paper are expected to be meaningful for the optimization design of tubular structures widely used in mechanical, aerospace, vehicle, biomedical engineering, etc.

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Guo, C., Zhao, D., Liu, Z., Ding, Q., Gao, H., Yan, Q., … Ren, F. (2021). The 3D-printed honeycomb metamaterials tubes with tunable negative poisson’s ratio for high-performance static and dynamic mechanical properties. Materials, 14(6). https://doi.org/10.3390/ma14061353

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