We present a new Eulerian large-strain model for Maxwell viscoelasticity using a logarithmic co-rotational stress rate and the Hencky strain tensor. This model is compared to the small-strain model without co-rotational terms and a formulation using the Jaumann stress rate. Homogeneous isothermal simple shear is examined for Weissenberg numbers in the interval [0.1; 10]. Significant differences in shear stress and energy evolution occur at Weissenberg numbers >0.1 and shear strains >0.5. In this parameter range, the Maxwell–Jaumann model dissipates elastic energy erroneously and thus should not be used. The small-strain model ignores finite transformations, frame indifference and self-consistency. As a result, it overestimates shear stresse...
We introduce a one-dimensional stress-rate type nonlinear viscoelastic model for solids that obey t...
Maxwell viscoelastic materials are commonly simulated numeri-cally in order to model the stresses an...
In a previous publication (J. Phys. I France 4 (1994) 1791) the semi-microscopical Rouse mode...
We present a new Eulerian large-strain model for Maxwell viscoelasticity using a logarithmic co-rota...
International audienceWhen constructing viscoelastic models, rate-form relations appear naturally to...
This work presents a simple, scalar model for predicting a nonlinear shear stress response of a visc...
The frame-indifferent thermodynamically-consistent model of thermoviscoelasticity at large strain is...
This lecture addresses the peculiar behavior of Non-Newtonian fluids . Particularly the Weissenberg ...
Fluctuating viscoelasticity for conformation-tensor-based models is studied at equilibrium, in simpl...
Abstract: A mathematical model of the viscoelastic phenomenon, employing the fractional derivative M...
International audienceTwo different viscoelastic frameworks adapted to large strain rate-dependent r...
The isothermal quasistatic (i.e.\ acceleration neglected) hardening-free plasticity at large strains...
International audienceThe viscoelastic response predicted by linearized internal variables models in...
Non-Newtonian fluids, such as polymer melts, are modeled with viscoelastic models. In this work the ...
Given a general velocity field consistent with the stagnation point flow, can the viscoelastic stres...
We introduce a one-dimensional stress-rate type nonlinear viscoelastic model for solids that obey t...
Maxwell viscoelastic materials are commonly simulated numeri-cally in order to model the stresses an...
In a previous publication (J. Phys. I France 4 (1994) 1791) the semi-microscopical Rouse mode...
We present a new Eulerian large-strain model for Maxwell viscoelasticity using a logarithmic co-rota...
International audienceWhen constructing viscoelastic models, rate-form relations appear naturally to...
This work presents a simple, scalar model for predicting a nonlinear shear stress response of a visc...
The frame-indifferent thermodynamically-consistent model of thermoviscoelasticity at large strain is...
This lecture addresses the peculiar behavior of Non-Newtonian fluids . Particularly the Weissenberg ...
Fluctuating viscoelasticity for conformation-tensor-based models is studied at equilibrium, in simpl...
Abstract: A mathematical model of the viscoelastic phenomenon, employing the fractional derivative M...
International audienceTwo different viscoelastic frameworks adapted to large strain rate-dependent r...
The isothermal quasistatic (i.e.\ acceleration neglected) hardening-free plasticity at large strains...
International audienceThe viscoelastic response predicted by linearized internal variables models in...
Non-Newtonian fluids, such as polymer melts, are modeled with viscoelastic models. In this work the ...
Given a general velocity field consistent with the stagnation point flow, can the viscoelastic stres...
We introduce a one-dimensional stress-rate type nonlinear viscoelastic model for solids that obey t...
Maxwell viscoelastic materials are commonly simulated numeri-cally in order to model the stresses an...
In a previous publication (J. Phys. I France 4 (1994) 1791) the semi-microscopical Rouse mode...