(791e) Adaptive Periodic Origami Structures and Their Mechanical Properties
AIChE Annual Meeting
2013 AIChE Annual Meeting
Materials Engineering and Sciences Division
Processing of Nanocomposites
Friday, November 8, 2013 - 9:46am to 10:05am
In nature we find examples of a relatively small set of building blocks arranged in ways that give rise to properties that range orders of magnitudes. Specifically in bioelastomeric materials, only 20 different amino acids are used to synthesize proteins for the human body; yet they are arranged in such a way that proteins can have mechanical properties ranging from something resembling rubber – low stiffness, high resilience and extensibility – to silk – high stiffness and strength, and everything in between. The large variation in mechanical properties, such as strength and extensibility is enabled by secondary structures that undergo different degrees of conformational change. Using the same idea, we demonstrate the design and fabrication of tunable mechanical properties over orders of magnitude by both macroscopic and microscopic patterning of “secondary structures”. Here we report using three types of “paper”, including nanocomposite, to experimentally demonstrate using hierarchical structures to induce elastic instability. FEM results are compared to elucidate the effect of different geometries and several relevant design parameters. The dynamic folding and the associated conformational change can revolutionize the manufacturing of origami materials and deployable structures that undergo rapid and reversible transformation with high fidelity.