Issue 26, 2022

Strength of fluid-filled soft composites across the elastofracture length

Abstract

Materials that utilize heterogeneous microstructures to control macroscopic mechanical response are ubiquitous in nature. Yet, translating nature's lessons to create synthetic soft solids has remained challenging. This is largely due to the limited synthetic routes available for creating soft composites, particularly with submicron features, as well as uncertainty surrounding the role of such a microstructured secondary phase in determining material behavior. This work leverages recent advances in the development of photocrosslinkable thermogelling nanoemulsions to produce composite hydrogels with a secondary phase assembled at well controlled length scales ranging from tens of nm to tens of μm. Through analysis of the mechanical response of these fluid-filled composite hydrogels, it is found that the size scale of the secondary phase has a profound impact on the strength when at or above the elastofracture length. Moreover, this work shows that mechanical integrity of fluid–filled soft solids can be sensitive to the size scale of the secondary phase.

Graphical abstract: Strength of fluid-filled soft composites across the elastofracture length

Supplementary files

Article information

Article type
Paper
Submitted
04 Feb 2022
Accepted
10 Jun 2022
First published
10 Jun 2022

Soft Matter, 2022,18, 4897-4904

Author version available

Strength of fluid-filled soft composites across the elastofracture length

C. W. Barney, M. T. Valentine and M. E. Helgeson, Soft Matter, 2022, 18, 4897 DOI: 10.1039/D2SM00177B

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