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Linear elasticity of polymer gels in terms of negative energy elasticity

Naoyuki Sakumichi, Yuki Yoshikawa, Takamasa Sakai

2021Polymer Journal29 citationsDOIOpen Access PDF

Abstract

Abstract We recently found that the energy contribution to the linear elasticity of polymer gels in the as-prepared state can be a significant negative value; the shear modulus is not proportional to the absolute temperature [1]. Our finding challenges the conventional notion that the polymer-gel elasticity is mainly determined by the entropy contribution. Existing molecular models of classical rubber elasticity theories, including the affine, phantom, and junction affine network models, cannot be used to estimate the structural parameters of polymer gels. In this focus review, we summarize the experimental studies on the linear elasticity of polymer gels in the as-prepared state using tetra-arm poly(ethylene glycol) (PEG) hydrogels with a homogenous polymer network. We also provide a unified formula for the linear elasticity of polymer gels with various network topologies and densities. Using the unified formula, we reconcile the past experimental results that seemed to be inconsistent with each other. Finally, we mention that there are still fundamental unresolved problems involving the linear elasticity of polymer gels.

Topics & Concepts

Elasticity (physics)PolymerRubber elasticityLinear elasticityMaterials scienceLinear polymerSelf-healing hydrogelsShear modulusElastic modulusRheologyAffine transformationComposite materialThermodynamicsYoung's modulusPolymer networkEntropy (arrow of time)Natural rubberLinear systemStatistical physicsViscoelasticityShear (geology)MechanicsElastic energyLinear response theoryTime–temperature superpositionHydrogels: synthesis, properties, applicationsElasticity and Material ModelingAdvanced Physical and Chemical Molecular Interactions
Linear elasticity of polymer gels in terms of negative energy elasticity | Litcius