Nonlinear quasi-static mechanical properties evaluation of the Mirror-Miura variant origami structures through additive manufacturing technology

Abstract

In this paper, a kind of Mirror-Miura variant origami structure is designed through the symmetry concept which could realize modular design based on the additive manufacturing (3D printing) technology. The nonlinear mechanical properties of different Mirror-Miura variant origami structures were investigated by fitting methods and compared by initial peak force, average compressive force, energy absorption value, specific energy absorption value. The results show that the nonlinear mechanical properties of the designed Mirror-Miura variant origami structures could be approximately expressed by polynomial and sine fitting functions. Utilizing the MMO-V4 structure, the effects of different structural parameters on the nonlinear compressive and bending properties. When wall thickness increases from 1 mm to 2 mm the initial peak force and the z-direction SEA value of MMO-V4 structures could increase by 556.77 % and 220.09 %, respectively. For the bending performance of different MMO tubes, the MMO-V2 shows the better bending resistance. Besides, with the increase of MMO numbers, the maximum bending forces of MMO-V4 tubes in the x and y directions could decrease by 47.59 % and 48.31 %, respectively. Besides, the sandwich origami (MMO-V4) structure also shows better high-bearing and lower-weight capacity according to compressive test results.