1. On the interplay between activity, elasticity and liquid transport in self-contractile biopolymer gels
- Author
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Bernheim-Groswasser, Anne, Livne, Gefen, Nardinocchi, Paola, Recrosi, Filippo, and Teresi, Luciano
- Subjects
Condensed Matter - Soft Condensed Matter - Abstract
Active gels play an important role in biology and in inspiring biomimetic active materials, due to their ability to change shape, size and create their own morphology; the relevant mechanics behind these changes is driven by self-contraction and liquid flow. Here, we couple contraction and liquid flow within a nonlinear mechanical model of an active gel disc to discuss how contraction dynamics inherits length scales which are typical of the liquid flow processes. The cylindrically symmetric model we present, which recapitulate our previous theoretical modeling in its basic lines, reveals that when also liquid flow is taken into account, the aspect ratio of the disc is not the only geometrical parameter which characterizes the contraction dynamics of the gel. The analyses we present provide important insights into the dependence of contraction dynamics on geometry and allow to make some progress in designing materials which can be adapted for different applications in soft robotics.
- Published
- 2023