Analysis of the Gel Point of Polymer Model Networks by Computer Simulations

Lang, Michael; Müller, Toni

doi:10.1021/acs.macromol.9b02217

Cited by 51 publications

(82 citation statements)

References 109 publications

(416 reference statements)

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“…, in accordance with the result of numerical simulations [26]. A more rigorous description of this effect requires the inclusion of fluctuation corrections.…”

Section: Finite-size Loops Of Real Networksupporting

confidence: 86%

“…A similar effect was observed in numerical simulations of networks obtained near the gel point, which is an analog of the percolation transition in low-molecular-weight solids. It is shown that the elastic modulus of such networks vanishes at a finite density of the network monomers [26]. One can estimate the corresponding shift in critical conversion p cµ at which G = 0, compared with the gel point at the conversion p cγ , at which the average degree of polymerization of soluble molecules diverges.…”

Section: Finite-size Loops Of Real Networkmentioning

confidence: 99%

“…A more rigorous description of this effect requires the inclusion of fluctuation corrections. Inside the strongly fluctuating Ginzburg region, Equation (18), the overlap parameter of elastically effective chains is small (which is why strong density fluctuations develop in this region), and they can be described by critical exponents of percolation theory, see Reference [26].…”

Section: Finite-size Loops Of Real Networkmentioning

confidence: 99%

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Theory of Flexible Polymer Networks: Elasticity and Heterogeneities

Panyukov

2020

Polymers

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A review of the main elasticity models of flexible polymer networks is presented. Classical models of phantom networks suggest that the networks have a tree-like structure. The conformations of their strands are described by the model of a combined chain, which consists of the network strand and two virtual chains attached to its ends. The distribution of lengths of virtual chains in real polydisperse networks is calculated using the results of the presented replica model of polymer networks. This model describes actual networks having strongly overlapping and interconnected loops of finite sizes. The conformations of their strands are characterized by the generalized combined chain model. The model of a sliding tube is represented, which describes the general anisotropic deformations of an entangled network in the melt. I propose a generalization of this model to describe the crossover between the entangled and phantom regimes of a swollen network. The obtained dependence of the Mooney-Rivlin parameters C 1 and C 2 on the polymer volume fraction is in agreement with experiments. The main results of the theory of heterogeneities in polymer networks are also discussed.

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“…, in accordance with the result of numerical simulations [26]. A more rigorous description of this effect requires the inclusion of fluctuation corrections.…”

Section: Finite-size Loops Of Real Networksupporting

confidence: 86%

Section: Finite-size Loops Of Real Networkmentioning

confidence: 99%

Section: Finite-size Loops Of Real Networkmentioning

confidence: 99%

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Theory of Flexible Polymer Networks: Elasticity and Heterogeneities

Panyukov

2020

Polymers

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“…A large number of studies exist, highlighting the heterogeneous character of the polymer network structure of vinylic hydrogels. [8][9][10] In this study, we build upon existing knowledge of this system by combining it with a focused analysis of the network architecture in relation to the bis-acrylamide (bis-AAm) cross-linker concentration. The distribution of the cross-linker in the polymer network is analyzed on both nanoscopic and microscopic scales by means of smallangle X-ray scattering (SAXS) and light transmittance.…”

Section: Introductionmentioning

confidence: 99%

The hierarchical bulk molecular structure of poly(acrylamide) hydrogels: beyond the fishing net

et al. 2020

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“…A theoretical analysis of finite-z corrections for the bond thresholds has recently been given by Frei and Perkins [32]. Some related work on polymer systems has also appeared recently [33].…”

Section: Introductionmentioning

confidence: 99%

Bond percolation on simple cubic lattices with extended neighborhoods

Xun

Ziff

2020

Phys. Rev. E

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By means of Monte Carlo simulations, we study long-range site percolation on square and simple cubic lattices with various combinations of nearest neighbors, up to the eighth nearest neighbors for the square lattice and the ninth nearest neighbors for the simple cubic lattice. We find precise thresholds for 23 systems using a single-cluster growth algorithm. Site percolation on lattices with compact neighborhoods can be mapped to problems of lattice percolation of extended shapes, such as disks and spheres, and the thresholds can be related to the continuum thresholds ηc for objects of those shapes. This mapping implies zpc ∼ 4ηc = 4.51235 in 2D and zpc ∼ 8ηc = 2.73512 in 3D for large z for circular and spherical neighborhoods respectively, where z is the coordination number. Fitting our data to the form pc = c/(z + b) we find good agreement with c = 2 d ηc, where the constant b represents a finite-z correction term. We also study power-law fits of the thresholds.

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Analysis of the Gel Point of Polymer Model Networks by Computer Simulations

Cited by 51 publications

References 109 publications

Theory of Flexible Polymer Networks: Elasticity and Heterogeneities

Theory of Flexible Polymer Networks: Elasticity and Heterogeneities

The hierarchical bulk molecular structure of poly(acrylamide) hydrogels: beyond the fishing net

Bond percolation on simple cubic lattices with extended neighborhoods

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