Optimization of dry adhesion in biological organisms is achieved using various strategies at different scale levels. In the past, studies have shown how contact splitting is used effectively by animals such as geckos and insects to increase the total peeling line of contacts and therefore the adhesion force. Also, tapering of contacts or grading of their mechanical properties has been shown to be instrumental in the achievement of improved adhesion efficiency. On a more macroscopic scale, structures such as spider web anchorages exploit hierarchical structure or nonlinear constitutive material properties to improve resilience and to achieve tunability in adhesion/detachment characteristics. Here, we analyse some of these properties and propose some mechanisms for the optimization of adhesion that have thus far been neglected in modelling approaches, and could be potentially exploited for the design of bioinspired adhesives. We consider hierarchical structure, contact tapering, grading of mechanical properties, and their interaction. It emerges that these mechanisms contribute on various size scales to the achievement of optimal adhesive properties through structural complexity and hierarchical organization.

Optimal adhesion control via cooperative hierarchy, grading, geometries and non-linearity of anchorages / Brely, Lucas Leo; Liprandi, Daniele; Bosia, Federico; Pugno, Nicola M. (BIOLOGICALLY-INSPIRED SYSTEMS). - In: Bio-Inspired Structured Adhesives / Lars Heepe,Longjian Xue, Stanislav N. Gorb. - DEU : Springer International Publishing, 2017. - ISBN 3319591134. - pp. 81-95 [10.1007/978-3-319-59114-8_6]

Optimal adhesion control via cooperative hierarchy, grading, geometries and non-linearity of anchorages

BOSIA, Federico;
2017

Abstract

Optimization of dry adhesion in biological organisms is achieved using various strategies at different scale levels. In the past, studies have shown how contact splitting is used effectively by animals such as geckos and insects to increase the total peeling line of contacts and therefore the adhesion force. Also, tapering of contacts or grading of their mechanical properties has been shown to be instrumental in the achievement of improved adhesion efficiency. On a more macroscopic scale, structures such as spider web anchorages exploit hierarchical structure or nonlinear constitutive material properties to improve resilience and to achieve tunability in adhesion/detachment characteristics. Here, we analyse some of these properties and propose some mechanisms for the optimization of adhesion that have thus far been neglected in modelling approaches, and could be potentially exploited for the design of bioinspired adhesives. We consider hierarchical structure, contact tapering, grading of mechanical properties, and their interaction. It emerges that these mechanisms contribute on various size scales to the achievement of optimal adhesive properties through structural complexity and hierarchical organization.
2017
3319591134
978-3-319-59113-1
Bio-Inspired Structured Adhesives
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2773508
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