From Statistical Polymer Physics to Nonlinear Elasticity

Abstract: A polymer-chain network is a collection of interconnected polymer-chains, made themselves of the repetition of a single pattern called a monomer. Our first main result establishes that, for a class of models for polymer-chain networks, the thermodynamic limit in the canonical ensemble yields a hyperelastic model in continuum mechanics. In particular, the discrete Helmholtz free energy of the network converges to the infimum of a continuum integral functional (of an energy density depending only on the local de… Show more

“…It has been first adapted to study discrete-to-continuum limits in [1] in the context of pairwiseinteracting discrete systems modeling nonlinear hyper-elastic materials and giving rise to continuum functionals finite on Sobolev spaces of the form Ω f (x, ∇u) dx. After that the application of the localization method to discrete systems at a bulk scaling has been extended into several directions including stochastic lattices [4,29], more general interaction potentials [24,22,20] and has also been combined with dimension-reduction techniques [3]. The most general result for discrete systems on deterministic lattices with limit energies on Sobolev spaces is by now contained in [20].…”

Discrete-to-continuum limits of multi-body systems with bulk and surface long-range interactions

“…It has been first adapted to study discrete-to-continuum limits in [1] in the context of pairwiseinteracting discrete systems modeling nonlinear hyper-elastic materials and giving rise to continuum functionals finite on Sobolev spaces of the form Ω f (x, ∇u) dx. After that the application of the localization method to discrete systems at a bulk scaling has been extended into several directions including stochastic lattices [4,29], more general interaction potentials [24,22,20] and has also been combined with dimension-reduction techniques [3]. The most general result for discrete systems on deterministic lattices with limit energies on Sobolev spaces is by now contained in [20].…”

Discrete-to-continuum limits of multi-body systems with bulk and surface long-range interactions

The poker-chip experiments of Gent and Lindley (1959) explained

Discrete-to-Continuum Limits of Multibody Systems with Bulk and Surface Long-Range Interactions