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The modeling of non-linear morphological changes in biological systems is a challenging task. Motivated by the observation of exotic pattern formation processes on fruit surfaces, a chiral wrinkling topology is disclosed as a mechanical structural instability, which is then exploited for the design of enhanced adaptive graspers.

Bio-Inspired Adaptive Grasper by Chiral Wrinkling / Dal Corso, F. - In: NATURE COMPUTATIONAL SCIENCE. - ISSN 2662-8457. - 2022, 2:10(2022), pp. 624-625. [10.1038/s43588-022-00336-8]

Bio-Inspired Adaptive Grasper by Chiral Wrinkling

Dal Corso, F
Primo
2022-01-01

Abstract

The modeling of non-linear morphological changes in biological systems is a challenging task. Motivated by the observation of exotic pattern formation processes on fruit surfaces, a chiral wrinkling topology is disclosed as a mechanical structural instability, which is then exploited for the design of enhanced adaptive graspers.
2022
NATURE COMPUTATIONAL SCIENCE
10
2-s2.0-85140380775
WOS:000888211200008
Dal Corso, F
Bio-Inspired Adaptive Grasper by Chiral Wrinkling / Dal Corso, F. - In: NATURE COMPUTATIONAL SCIENCE. - ISSN 2662-8457. - 2022, 2:10(2022), pp. 624-625. [10.1038/s43588-022-00336-8]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/372111
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