Mechanical Metamaterials: Folding at the Microscale: Enabling Multifunctional 3D Origami‐Architected Metamaterials (Small 35/2020)
Small, 2020•Wiley Online Library
Origami foldability, naturally realizable at the micro-and nanoscale, provides a pathway to
enlarge the design space of mechanical metamaterials. In article number 2002229, Glaucio
H. Paulino, Horacio D. Espinosa, Sridhar Krishnaswamy, and co-workers design and
fabricate microscale 3D multifunctional origami-architected metamaterials and reveal their
unique mechanical properties. Such metamaterials promise to influence various
applications ranging from deployable medical devices to soft robotics in which size …
enlarge the design space of mechanical metamaterials. In article number 2002229, Glaucio
H. Paulino, Horacio D. Espinosa, Sridhar Krishnaswamy, and co-workers design and
fabricate microscale 3D multifunctional origami-architected metamaterials and reveal their
unique mechanical properties. Such metamaterials promise to influence various
applications ranging from deployable medical devices to soft robotics in which size …
Origami foldability, naturally realizable at the micro-and nanoscale, provides a pathway to enlarge the design space of mechanical metamaterials. In article number 2002229, Glaucio H. Paulino, Horacio D. Espinosa, Sridhar Krishnaswamy, and co-workers design and fabricate microscale 3D multifunctional origami-architected metamaterials and reveal their unique mechanical properties. Such metamaterials promise to influence various applications ranging from deployable medical devices to soft robotics in which size scalability, shape-morphability, and deployability coupled with directional mechanical property tunability are requisite attributes.
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