Linear rheology of reversibly cross-linked biopolymer networks

Amuasi Henry E.; Fischer Andreas; Zippelius Annette; Heussinger Claus

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Linear rheology of reversibly cross-linked biopolymer networks

机译：可逆交联生物聚合物网络的线性流变学

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We suggest a simple model for reversible cross-links, binding, and unbinding to/from a network of semiflexible polymers. The resulting frequency dependent response of the network to an applied shear is calculated via Brownian dynamics simulations. It is shown to be rather complex with the time scale of the linkers competing with the excitations of the network. If the lifetime of the linkers is the longest time scale, as is indeed the case in most biological networks, then a distinct low frequency peak of the loss modulus develops. The storage modulus shows a corresponding decay from its plateau value, which for irreversible cross-linkers extends all the way to the static limit. This additional relaxation mechanism can be controlled by the relative weight of reversible and irreversible linkers. Published by AIP Publishing.

机译：我们建议一种简单的模型，用于可逆交叉链路，绑定和从半结晶聚合物网络中的绑定。通过布朗尼动态模拟计算网络对施加剪切的所得到的频率依赖性响应。与竞争网络的激励竞争的接头的时间尺度相当复杂。如果接头的寿命是最长的时间尺度，则实际上在大多数生物网络中的情况下，损耗模量的明显低频峰值发展。存储模量显示出与其平台值的相应衰减，这对于不可逆转的交联剂延伸到静态极限一直延伸。这种额外的弛豫机构可以通过可逆和不可逆的接头的相对重量来控制。通过AIP发布发布。

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来源
《The Journal of Chemical Physics》 |2018年第8期|共7页
作者
Amuasi Henry E.; Fischer Andreas; Zippelius Annette; Heussinger Claus;
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Georg August Univ Gottingen Inst Theoret Phys D-37073 Gottingen Germany;

Georg August Univ Gottingen Inst Theoret Phys D-37073 Gottingen Germany;

Georg August Univ Gottingen Inst Theoret Phys D-37073 Gottingen Germany;

Georg August Univ Gottingen Inst Theoret Phys D-37073 Gottingen Germany;

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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
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1. Linear rheology of reversibly cross-linked biopolymer networks [J] . Amuasi Henry E., Fischer Andreas, Zippelius Annette, The Journal of Chemical Physics . 2018,第8期

机译：可逆交联生物聚合物网络的线性流变学
2. Mechanism of Shear Thickening in Reversibly Cross-Linked Supramolecular Polymer Networks [J] . Xu DH, Hawk LL, Loveless DM, Macromolecules . 2010,第7期

机译：可逆交联的超分子聚合物网络中剪切增厚的机理
3. Cross-linked biopolymer networks with active motors: Mechanical response and intra-network transport [J] . Gong Bo, Lin Ji, Wei Xi, Journal of the Mechanics and Physics of Solids . 2019,第JUNa期

机译：带有主动电机的交联生物聚合物网络：机械响应和网络内传输
4. Characterizing the Non-Linear Rheology of Biopolymer Networks Using Inertio-Elastic Oscillations [C] . Norman Y. Yao, Ryan J. Larsen, David A. Weitz International Congress on Rheology . 2008

机译：使用惰性弹性振荡来表征生物聚合物网络的非线性流变学
5. Model-based Curvilinear Network Extraction and Tracking toward Quantitative Analysis of Biopolymer Networks [D] . Xu, Ting. 2016

机译：基于模型的曲线网络提取及朝向生物聚合物网络定量分析的跟踪
6. Strain Hardening and Strain Softening of Reversibly Cross-linked Supramolecular Polymer Networks [O] . Donghua Xu, Stephen L. Craig -1

机译：应变硬化和应变可逆交联超分子聚合物网络的软化
7. Strain Hardening and Strain Softening of Reversibly Cross-Linked Supramolecular Polymer Networks [O] . Donghua Xu, Stephen L. Craig 2011

机译：可逆交联超分子聚合物网络的应变硬化和应变软化

Linear rheology of reversibly cross-linked biopolymer networks

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