Add to ORKGOn using a rational function approximation scheme for the response functions of hyperelastic isotropic materials we propose a new model to describe the mechanical behaviour of atactic polymers. The new model takes into account the finite chain extensibility effects characteristic of this class of materials. 1
Rubber-like materials consist of chain-like macromolecules that are more or less closely connected t...
Abstract: A kinematic model is proposed for materials whose polymeric molecular chains have a maximu...
Starting from physical basis, a robust three-dimensional constitutive model for the finite strain re...
Dedicated to Professor Cornelius O. Horgan in esteem and friendship, with highest regard Abstract: T...
205 pagesElastomeric materials contain many individual polymer chains crosslinked together, forming ...
AbstractIn this paper, an exponential framework for strain energy density functions of elastomers an...
The basic concern of the present work is the systematic derivation of a new constitutive framework f...
The use of constitutive equations to describe the electromechanical behavior of electrostrictive mat...
The response function for a general class of elastic molecular based materials characterized by thei...
International audienceA constitutive model is proposed for a class of filled elastomers exhibiting p...
We apply a recently developed density functional theory for freely hinged, hard polymeric chains to ...
AbstractA constitutive model is derived for the elastic behavior of rubbers at arbitrary three-dimen...
AbstractThe present paper is focused on the development of a constitutive model for the computationa...
A consistent thermomechanical model applicable to pseudo-elastic behaviour of rubber-like materials ...
A constitutive model for isotropic, semi-crystalline polymers is proposed. The model is Eulerian in ...
Rubber-like materials consist of chain-like macromolecules that are more or less closely connected t...
Abstract: A kinematic model is proposed for materials whose polymeric molecular chains have a maximu...
Starting from physical basis, a robust three-dimensional constitutive model for the finite strain re...
Dedicated to Professor Cornelius O. Horgan in esteem and friendship, with highest regard Abstract: T...
205 pagesElastomeric materials contain many individual polymer chains crosslinked together, forming ...
AbstractIn this paper, an exponential framework for strain energy density functions of elastomers an...
The basic concern of the present work is the systematic derivation of a new constitutive framework f...
The use of constitutive equations to describe the electromechanical behavior of electrostrictive mat...
The response function for a general class of elastic molecular based materials characterized by thei...
International audienceA constitutive model is proposed for a class of filled elastomers exhibiting p...
We apply a recently developed density functional theory for freely hinged, hard polymeric chains to ...
AbstractA constitutive model is derived for the elastic behavior of rubbers at arbitrary three-dimen...
AbstractThe present paper is focused on the development of a constitutive model for the computationa...
A consistent thermomechanical model applicable to pseudo-elastic behaviour of rubber-like materials ...
A constitutive model for isotropic, semi-crystalline polymers is proposed. The model is Eulerian in ...
Rubber-like materials consist of chain-like macromolecules that are more or less closely connected t...
Abstract: A kinematic model is proposed for materials whose polymeric molecular chains have a maximu...
Starting from physical basis, a robust three-dimensional constitutive model for the finite strain re...