PEER-REVIEWED PUBLICATION

2025

Concentric ice-templating of ultracompressible tough hydrogels with bioinspired circumferentially aligned architecture

Gu W, Yang S, et al.

Science Advances

University of Macau, Southern University of Science and Technology, University of Cambridge, Chinese Academy of Agricultural Sciences

China, United Kingdom

RESEARCH SUMMARY

This study introduces a concentric ice-templating strategy to fabricate ultracompressible, tough poly(vinyl alcohol) (PVA) hydrogels with circumferentially aligned microstructures inspired by natural load-bearing tissues. The resulting hydrogels exhibit exceptional fatigue resistance, crack tolerance, and recoverability under extreme cyclic deformation, while maintaining high water content. By controlling ice growth direction, the authors demonstrate tunable anisotropic mechanical properties that enable applications ranging from soft robotic actuators to durable hydrogel components operating under repeated mechanical loading and pressurization.

CellScale mechanical testing instrumentation was used to perform cyclic fatigue testing on notched hydrogel specimens to quantify crack-growth resistance and fatigue thresholds. Using a low-force load cell, the CellScale system applied controlled cyclic tensile loading to hydrated samples, enabling precise measurement of energy release rate and crack propagation behavior over thousands of cycles. These measurements were critical for validating the exceptional fatigue durability of the architected hydrogels.

AUTHORS

Wenxi Gu; Shuqi Yang; Dazhe Zhao; Yiwei Zou; Chonghao Chen; Peiqi Niu; Xiangyu Liang; Chi Tat Kwok; Bingpu Zhou; Chunming Wang; Yan Yan Shery Huang; Ji Liu; Iek Man Lei.

PUBLICATION DETAILS

JOURNAL

Science Advances

YEAR

2025

INSTITUTIONS

University of Macau, Southern University of Science and Technology, University of Cambridge, Chinese Academy of Agricultural Sciences

COUNTRIES

China, United Kingdom

INSTRUMENT USED

UniVert

TESTING METHODS

Fatigue Testing

RESEARCH APPLICATIONS

Hydrogel Mechanical TestingMaterial Fatigue and DurabilityPolymers and Elastomers TestingSoft Robotics Materials

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