Issue 7, 2024

Obstructed swelling and fracture of hydrogels

Abstract

Obstructions influence the growth and expansion of bodies in a wide range of settings—but isolating and understanding their impact can be difficult in complex environments. Here, we study obstructed growth/expansion in a model system accessible to experiments, simulations, and theory: hydrogels swelling around fixed cylindrical obstacles with varying geometries. When the obstacles are large and widely-spaced, hydrogels swell around them and remain intact. In contrast, our experiments reveal that when the obstacles are narrow and closely-spaced, hydrogels fracture as they swell. We use finite element simulations to map the magnitude and spatial distribution of stresses that build up during swelling at equilibrium in a 2D model, providing a route toward predicting when this phenomenon of self-fracturing is likely to arise. Applying lessons from indentation theory, poroelasticity, and nonlinear continuum mechanics, we also develop a theoretical framework for understanding how the maximum principal tensile and compressive stresses that develop during swelling are controlled by obstacle geometry and material parameters. These results thus help to shed light on the mechanical principles underlying growth/expansion in environments with obstructions.

Graphical abstract: Obstructed swelling and fracture of hydrogels

Supplementary files

Article information

Article type
Paper
Submitted
01 Nov 2023
Accepted
20 Dec 2023
First published
22 Jan 2024
This article is Open Access
Creative Commons BY license

Soft Matter, 2024,20, 1425-1437

Obstructed swelling and fracture of hydrogels

A. Plummer, C. Adkins, J. Louf, A. Košmrlj and S. S. Datta, Soft Matter, 2024, 20, 1425 DOI: 10.1039/D3SM01470C

This article is licensed under a Creative Commons Attribution 3.0 Unported Licence. You can use material from this article in other publications without requesting further permissions from the RSC, provided that the correct acknowledgement is given.

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