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Dehydration drives damage in the freezing of brittle hydrogels

Shaohua Yang, Dominic Gerber, Yanxia Feng, Nicolas Bain, Matthias Kuster, Laura De Lorenzis, Ye Xu, Eric R. Dufresne, Robert W. Style

2024Science Advances28 citationsDOIOpen Access PDF

Abstract

It is widely known that freezing breaks soft, wet materials. However, the mechanism underlying this damage is still not clear. To understand this process, we freeze model, brittle hydrogel samples, while observing the growth of ice-filled cracks that break these apart. We show that damage is not caused by the expansion of water upon freezing or the growth of ice-filled cavities in the hydrogel that exert pressure on the surrounding material. Instead, local ice growth dehydrates the adjacent hydrogel, leading to drying-induced fracture. This dehydration is driven by the process of cryosuction, whereby undercooled ice sucks nearby water toward itself, feeding ice growth. Our results highlight the strong analogy between freezing damage and desiccation cracking, which we anticipate being useful for developing an understanding of both topics. Our results should also give useful insights into a wide range of freezing processes, including cryopreservation, food science, and frost heave.

Topics & Concepts

Frost (temperature)DesiccationBrittlenessSelf-healing hydrogelsIce formationDehydrationFrost heavingMaterials scienceIce crystalsCrackingComposite materialGeologyChemistryGeotechnical engineeringAtmospheric sciencesMeteorologyBiologyBotanyPolymer chemistryPhysicsBiochemistryFreezing and Crystallization ProcessesMicrofluidic and Bio-sensing TechnologiesFluid Dynamics and Heat Transfer
Dehydration drives damage in the freezing of brittle hydrogels | Litcius