Several materials with mesoscopic characteristics (e.g., defects or intergrain regions) have been shown to share several nonclassical nonlinear features, which distinguish them from classical nonlinear media. Most striking among them is the log-time recovery of the material properties after they have been conditioned by the action of an external perturbation. A simple model based on the description of the mesoscopic features as bond regions between elastic portions is presented here. The implementation of the model is illustrated by the application of a special bi-state protocol, which, by considering also thermally induced transitions between the two basic states, allows to explain all experimentally observed nonclassical nonlinear effects
Concrete, particularly if damaged, exhibits a peculiar nonlinear elastic behavior, which is mainly d...
International audienceVibrational experiments in rocks or concrete reveal that two different dynamic...
A general framework able to describe the mechanical behavior of thermo-elastic materials with microc...
Several materials with mesoscopic characteristics (e.g., defects or intergrain regions) have been sh...
Recent studies show that a broad category of materials share "nonclassical" nonlinear elastic behavi...
Abstract. It has recently become clear that a large category of materials exhibit an identical, nonl...
Recent experiments on rocks and other materials, such as soil, cement, concrete and damaged elastic ...
When excited by elastic waves, nonlinear mesoscopic elastic materials (for example, consolidated gra...
In the field of Materials Science many patterns have emerged which are remarkably similar although t...
The elastic properties of geomaterials are anomalous. Hysteresis with end point memory, slow dynamic...
Recent discoveries of nonclassical nonlinear effects in materials have suggested the existence of a ...
Materials science or, more specifically, materials characterization represents an extremely vast int...
International audienceIn this Letter, the tensorial nature of the nonequilibrium dynamics in nonline...
A nonlinear layer can be a model for a cloud of gas bubbles in a liquid, a crack or split plane in a...
This book comes as a result of the research work developed in the framework of two large internation...
Concrete, particularly if damaged, exhibits a peculiar nonlinear elastic behavior, which is mainly d...
International audienceVibrational experiments in rocks or concrete reveal that two different dynamic...
A general framework able to describe the mechanical behavior of thermo-elastic materials with microc...
Several materials with mesoscopic characteristics (e.g., defects or intergrain regions) have been sh...
Recent studies show that a broad category of materials share "nonclassical" nonlinear elastic behavi...
Abstract. It has recently become clear that a large category of materials exhibit an identical, nonl...
Recent experiments on rocks and other materials, such as soil, cement, concrete and damaged elastic ...
When excited by elastic waves, nonlinear mesoscopic elastic materials (for example, consolidated gra...
In the field of Materials Science many patterns have emerged which are remarkably similar although t...
The elastic properties of geomaterials are anomalous. Hysteresis with end point memory, slow dynamic...
Recent discoveries of nonclassical nonlinear effects in materials have suggested the existence of a ...
Materials science or, more specifically, materials characterization represents an extremely vast int...
International audienceIn this Letter, the tensorial nature of the nonequilibrium dynamics in nonline...
A nonlinear layer can be a model for a cloud of gas bubbles in a liquid, a crack or split plane in a...
This book comes as a result of the research work developed in the framework of two large internation...
Concrete, particularly if damaged, exhibits a peculiar nonlinear elastic behavior, which is mainly d...
International audienceVibrational experiments in rocks or concrete reveal that two different dynamic...
A general framework able to describe the mechanical behavior of thermo-elastic materials with microc...