关联刚性渗流与胶体凝胶。

Correlated Rigidity Percolation and Colloidal Gels.

机构信息

Department of Physics, University of Michigan, Ann Arbor, Michigan 48109, USA.

Department of Physics, Institute for Soft Matter Synthesis and Metrology, Georgetown University, Washington, D.C. 20057, USA.

出版信息

Phys Rev Lett. 2019 Aug 2;123(5):058001. doi: 10.1103/PhysRevLett.123.058001.

DOI:10.1103/PhysRevLett.123.058001

PMID:31491284

Abstract

Rigidity percolation (RP) occurs when mechanical stability emerges in disordered networks as constraints or components are added. Here we discuss RP with structural correlations, an effect ignored in classical theories albeit relevant to many liquid-to-amorphous-solid transitions, such as colloidal gelation, which are due to attractive interactions and aggregation. Using a lattice model, we show that structural correlations shift RP to lower volume fractions. Through molecular dynamics simulations, we show that increasing attraction in colloidal gelation increases structural correlation and thus lowers the RP transition, agreeing with experiments. Hence, the emergence of rigidity at colloidal gelation can be understood as a RP transition, but occurs at volume fractions far below values predicted by the classical RP, due to attractive interactions which induce structural correlation.

摘要

当机械稳定性在无序网络中出现时，刚性渗流（RP）就会发生，这是因为添加了约束或组件。在这里，我们讨论了具有结构相关性的 RP，尽管经典理论忽略了这一效应，但它与许多液体到无定形固体的转变有关，例如胶体凝胶化，这是由于吸引力相互作用和聚集作用引起的。使用晶格模型，我们表明结构相关性会将 RP 转移到较低的体积分数。通过分子动力学模拟，我们表明胶体凝胶化中吸引力的增加会增加结构相关性，从而降低 RP 转变，这与实验结果一致。因此，胶体凝胶化中刚性的出现可以理解为 RP 转变，但由于吸引力相互作用诱导结构相关性，它发生在远远低于经典 RP 预测值的体积分数下。

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关联刚性渗流与胶体凝胶。

Correlated Rigidity Percolation and Colloidal Gels.

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