中尺度气象学
自愈
自愈水凝胶
相衬显微术
机制(生物学)
相(物质)
材料科学
复合材料
纳米技术
生物医学工程
化学
医学
高分子化学
光学
病理
物理
气象学
有机化学
量子力学
替代医学
作者
Xueyu Li,Kunpeng Cui,Takayuki Kurokawa,Ya Nan Ye,Tao Lin Sun,Chengtao Yu,Costantino Creton,Jian Ping Gong
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2021-04-14
卷期号:7 (16)
被引量:102
标识
DOI:10.1126/sciadv.abe8210
摘要
We investigate the fatigue resistance of chemically cross-linked polyampholyte hydrogels with a hierarchical structure due to phase separation and find that the details of the structure, as characterized by SAXS, control the mechanisms of crack propagation. When gels exhibit a strong phase contrast and a low cross-linking level, the stress singularity around the crack tip is gradually eliminated with increasing fatigue cycles and this suppresses crack growth, beneficial for high fatigue resistance. On the contrary, the stress concentration persists in weakly phase-separated gels, resulting in low fatigue resistance. A material parameter, λtran, is identified, correlated to the onset of non-affine deformation of the mesophase structure in a hydrogel without crack, which governs the slow-to-fast transition in fatigue crack growth. The detailed role played by the mesoscale structure on fatigue resistance provides design principles for developing self-healing, tough, and fatigue-resistant soft materials.
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