Literature DB >> 26413988

Reversible dilatancy in entangled single-wire materials.

David Rodney1,2, Benjamin Gadot2,3, Oriol Riu Martinez3, Sabine Rolland du Roscoat3, Laurent Orgéas3.   

Abstract

Designing structures that dilate rapidly in both tension and compression would benefit devices such as smart filters, actuators or fasteners. This property however requires an unusual Poisson ratio, or Poisson function at finite strains, which has to vary with applied strain and exceed the familiar bounds: less than 0 in tension and above 1/2 in compression. Here, by combining mechanical tests and discrete element simulations, we show that a simple three-dimensional architected material, made of a self-entangled single long coiled wire, behaves in between discrete and continuum media, with a large and reversible dilatancy in both tension and compression. This unusual behaviour arises from an interplay between the elongation of the coiled wire and rearrangements due to steric effects, which, unlike in traditional discrete media, are hysteretically reversible when the architecture is made of an elastic fibre.

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Year:  2015        PMID: 26413988     DOI: 10.1038/nmat4429

Source DB:  PubMed          Journal:  Nat Mater        ISSN: 1476-1122            Impact factor:   43.841


  18 in total

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  8 in total

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  8 in total

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