Revealing the Dynamic Characteristics of Composite Material-Based Miura-Origami Tube

Although Miura origami has excellent planar expansion characteristics and good mechanical properties, its congenital flaws, e.g., open sections leading to weak out-of-plane stiffness and constituting the homogenization of the material, and resulting in limited design freedom, should also be taken seriously. Herein, two identical Miura sheets, made of carbon fiber/epoxy resin composite, were bonded to form a tubular structure with closed sections, i.e., an origami tube. Subsequently, the dynamic performances, including the nature frequency and the dynamic displacement response, of the designed origami tubes were extensively investigated through numerical simulations. The outcomes revealed that the natural frequency and corresponding dynamic displacement response of the structure can be adjusted in a larger range by varying the geometric and material parameters, which is realized by combining origami techniques and the composite structures' characteristics. This work can provide new ideas for the design of light-weight and high-mechanical-performance structures.

Automated summary

This study utilized two identical Miura sheets made of carbon fiber/epoxy resin composite to create an origami tube, and extensively investigated the dynamic performances through numerical simulations. The outcomes revealed that the natural frequency and dynamic displacement response of the structure can be adjusted in a wider range by varying parameters, realized by combining origami techniques and composite structures' characteristics.