Journal ArticleDOI
Statistical mechanics of cross-linked polymer networks ii. swelling
Paul J. Flory,John Rehner +1 more
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In this paper, the interaction of solvents with cross-linked network structures, such as occur in vulcanized rubber, is subjected to a statistical mechanical treatment based on the model and procedure presented in the preceding paper.Abstract:
The interaction of solvents with cross‐linked network structures, such as occur in vulcanized rubber, is subjected to a statistical mechanical treatment based on the model and procedure presented in the preceding paper. The activity of the solvent is expressed as a function of its concentration in the swollen network, and of the degree of cross‐linking. The maximum degree of swelling of the network in contact with the pure solvent is related to the degree of cross‐linking. The heat of interaction of the solvent with the network can be calculated from the temperature coefficient of maximum swelling. The theory leads to the conclusion that the swelling capacity should be diminished by the application of an external stress. Furthermore, the modulus of elasticity should decrease inversely with the cube root of the swelling volume.read more
Citations
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Hydrogels in regenerative medicine
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Journal ArticleDOI
Statistical Mechanics of Cross‐Linked Polymer Networks I. Rubberlike Elasticity
Paul J. Flory,John Rehner +1 more
TL;DR: In this paper, a model for the structure of a cross-linked network, such as exists in a vulcanized rubber, which is amenable to statistical treatment, is proposed, and expressions for the structural entropy of the network, and for the entropy change on deformation.
References
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Journal ArticleDOI
Thermodynamics of High Polymer Solutions
TL;DR: In this paper, a statistical treatment of high polymer solutions has been carried out on the basis of an idealized model, originally proposed by Meyer, which is analogous to the one ordinarily assumed in the derivation of the ''ideal'' solution laws for molecules of equal size.
Journal ArticleDOI
A Theory of Elasticity, Viscosity and Swelling in Polymeric Rubber-Like Substances
TL;DR: In this paper, it was shown that an extension of a rubber-like body (without change of volume), entailing a similar average extension of all the molecular chains constituting it in a definite direction, is resisted by an elastic force proportional to the energy of heat agitation, that is, to the absolute temperature.
Journal ArticleDOI
The interaction between rubber and liquids. 1. A thermodynamical study of the system rubber-benzene
G. Gee,L. R. G. Treloar +1 more
TL;DR: In this article, an equation relating the thermodynamic properties of a mixture of rubber + liquid with the vapor pressure of the liquid above the mixture was developed for the determination of vapor pressure over the whole range of composition of the mixture.
Journal ArticleDOI
The interaction between rubber and liquids. III. The swelling of vulcanised rubber in various liquids
TL;DR: In this paper, the entropy of swelling of vulcanized rubber is estimated, and assumed independent of the nature of the swelling liquid, and a value of 66 calories per cc is deduced for the cohesive energy density of rubber.