Issue 14, 2023

Active foam: the adaptive mechanics of 2D air–liquid foam under cyclic inflation

Abstract

Foam is a canonical example of disordered soft matter where local force balance leads to the competition of many metastable configurations. We present an experimental and theoretical framework for “active foam” where an individual voxel inflates and deflates periodically. Local periodic activity leads to irreversible and reversible T1 transitions throughout the foam, eventually reaching a reversible limit cycle. Individual vertices displace outwards and subsequently return back to their approximate original radial position; this radial displacement follows an inverse law. Surprisingly, each return trajectory does not retrace its outbound path but encloses a finite area, with a clockwise (CW) or counterclockwise (CCW) direction, which we define as a local swirl. These swirls form coherent patterns spanning the scale of the material. Using a dynamical model, we demonstrate that swirl arises from disorder in the local micro-structure. We demonstrate that disorder and strain-rate control a crossover between cooperation and competition between swirls in adjacent vertices. Over 5–10 cycles, the region around the active voxel structurally adapts from a higher-energy metastable state to a lower-energy state, locally ordering and stiffening the structure. The coherent domains of CW/CCW swirl become smaller as the system stabilizes, indicative of a process similar to the Hall–Petch effect. Finally, we introduce a statistical model that evolves edge lengths with a set of rules to explore how this class of materials adapts as a function of initial structure. Adding activity to foam couples structural disorder and adaptive dynamics to encourage the development of a new class of abiotic, cellularized active matter.

Graphical abstract: Active foam: the adaptive mechanics of 2D air–liquid foam under cyclic inflation

Supplementary files

Article information

Article type
Paper
Submitted
05 Jan 2023
Accepted
26 Feb 2023
First published
06 Mar 2023

Soft Matter, 2023,19, 2539-2553

Author version available

Active foam: the adaptive mechanics of 2D air–liquid foam under cyclic inflation

L. A. Kroo, M. S. Bull and M. Prakash, Soft Matter, 2023, 19, 2539 DOI: 10.1039/D3SM00019B

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