Nonlinear elastic response in rock is established as a robust and representative characteristic rock rather than a curiosity. We show measurements of this behaviour from a variety of experiments on rock taken over many orders of magnitude in strain and frequency. The evidence leads to a pattern of unifying behaviour in rock: (1) Nonlinear response in rock is ubiquitous. (2) The response takes place over a large frequency interval (dc to 105 kHz at least). (3) The response not only occurs, as is commonly appreciated, large strains but also at small strains where this behaviour and the manifestations of this behaviour are commonly disregarded
International audienceThe velocity of sound in rock is a strong function of pressure, indicating tha...
Because of the presence of structural defects such as microcracks and grain boundaries, the effectiv...
Much is known empirically about the qualitative and quantitative nonlinear response of rocks. Still,...
International audienceNonlinear elastic response in rock is established as a robust and representati...
The authors` intention is to describe several manifestations of nonlinear behavior in rock. Nonlinea...
Abstract: The compliant features of rocks (e.g., cracks, pores) and the fluids filling them, give r...
We are interested in the nonlinear interaction of frequency components in large amplitude acoustic w...
The elastic properties of geomaterials are anomalous. Hysteresis with end point memory, slow dynamic...
When natural materials are loaded by a stress field, dramatic changes in modulus occur as the micros...
Rocks are generally regarded as linearly elastic even though the manifestations of nonlinearity are ...
Abstract. A typical resonance curve--measured accel-eration versus drive frequency--made on a thin b...
The nonlinear interaction of two elastic waves at frequencies fl and f2 in an elastically nonlinear ...
Strong nonlinear responses originating mainly from sliding on microfractures and open grain boundari...
We are interested in the nonlinear interaction of frequency components in large amplitude acoustic w...
Like many materials, granite exhibits both nonlinear acoustic distortion and slow nonequilibrium dyn...
International audienceThe velocity of sound in rock is a strong function of pressure, indicating tha...
Because of the presence of structural defects such as microcracks and grain boundaries, the effectiv...
Much is known empirically about the qualitative and quantitative nonlinear response of rocks. Still,...
International audienceNonlinear elastic response in rock is established as a robust and representati...
The authors` intention is to describe several manifestations of nonlinear behavior in rock. Nonlinea...
Abstract: The compliant features of rocks (e.g., cracks, pores) and the fluids filling them, give r...
We are interested in the nonlinear interaction of frequency components in large amplitude acoustic w...
The elastic properties of geomaterials are anomalous. Hysteresis with end point memory, slow dynamic...
When natural materials are loaded by a stress field, dramatic changes in modulus occur as the micros...
Rocks are generally regarded as linearly elastic even though the manifestations of nonlinearity are ...
Abstract. A typical resonance curve--measured accel-eration versus drive frequency--made on a thin b...
The nonlinear interaction of two elastic waves at frequencies fl and f2 in an elastically nonlinear ...
Strong nonlinear responses originating mainly from sliding on microfractures and open grain boundari...
We are interested in the nonlinear interaction of frequency components in large amplitude acoustic w...
Like many materials, granite exhibits both nonlinear acoustic distortion and slow nonequilibrium dyn...
International audienceThe velocity of sound in rock is a strong function of pressure, indicating tha...
Because of the presence of structural defects such as microcracks and grain boundaries, the effectiv...
Much is known empirically about the qualitative and quantitative nonlinear response of rocks. Still,...