The present work discusses our recent advances on auxetics with tunable shape reconfigurability. To this purpose, 4D printing and multiple shape memory effect are combined. A methodological approach, including a comprehensive experimental and numerical investigation, is proposed. Results are helpful in guiding towards the design of single-material auxetic structures capable of controlled and autonomous in-plane and out-of-plane motions.
Tunable shape memory auxetics: from 4D printing to numerical simulations
Pasini C.;Inverardi N.;Battini D.;Bignotti F.;Pandini S.
2022-01-01
Abstract
The present work discusses our recent advances on auxetics with tunable shape reconfigurability. To this purpose, 4D printing and multiple shape memory effect are combined. A methodological approach, including a comprehensive experimental and numerical investigation, is proposed. Results are helpful in guiding towards the design of single-material auxetic structures capable of controlled and autonomous in-plane and out-of-plane motions.File in questo prodotto:
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