The basic ideas for describing the dispersive wave motion in microstructured solids are discussed in the one-dimensional setting because then the differences between various microstructure models are clearly visible. An overview of models demonstrates a variety of approaches, but the consistent structure of the theory is best considered from the unified viewpoint of internal variables. It is shown that the unification of microstructure models can be achieved using the concept of dual internal variables
AbstractUltrasonic waves are powerful and popular methods for measuring mechanical properties of sol...
Abstract Long-range interactions occurring in heterogeneous materials are responsible...
Thermoelastic wave propagation suggests a coupling between elastic deformation and heat conduction i...
The wave motion in micromorphic microstructured solids is studied. The mathematical model is based o...
The dispersive wave motion in solids with microstructure is considered in the one-dimensional settin...
AbstractThe wave motion in micromorphic microstructured solids is studied. The mathematical model is...
A series of numerical simulations is carried on in order to understand the accuracy of dispersive wa...
International audienceThis paper describes the mathematical models derived for wave propagation in s...
Wave propagation in materials with embedded two different microstructures is considered. Each micros...
A linear model of the microstructured continuum based on Mindlin theory is adopted which can be repr...
Results of numerical experiments are presented in order to compare direct numerical calculations of ...
AbstractA Mindlin continuum model that incorporates both a dependence upon the microstructure and in...
Several mathematical models describing wave propagation in microstructured materials are comparative...
AbstractAnalytical wave propagation studies in gradient elastic solids and structures are presented....
The governing equations for a 1D case of the Mindlin model for microstructured materials are derived...
AbstractUltrasonic waves are powerful and popular methods for measuring mechanical properties of sol...
Abstract Long-range interactions occurring in heterogeneous materials are responsible...
Thermoelastic wave propagation suggests a coupling between elastic deformation and heat conduction i...
The wave motion in micromorphic microstructured solids is studied. The mathematical model is based o...
The dispersive wave motion in solids with microstructure is considered in the one-dimensional settin...
AbstractThe wave motion in micromorphic microstructured solids is studied. The mathematical model is...
A series of numerical simulations is carried on in order to understand the accuracy of dispersive wa...
International audienceThis paper describes the mathematical models derived for wave propagation in s...
Wave propagation in materials with embedded two different microstructures is considered. Each micros...
A linear model of the microstructured continuum based on Mindlin theory is adopted which can be repr...
Results of numerical experiments are presented in order to compare direct numerical calculations of ...
AbstractA Mindlin continuum model that incorporates both a dependence upon the microstructure and in...
Several mathematical models describing wave propagation in microstructured materials are comparative...
AbstractAnalytical wave propagation studies in gradient elastic solids and structures are presented....
The governing equations for a 1D case of the Mindlin model for microstructured materials are derived...
AbstractUltrasonic waves are powerful and popular methods for measuring mechanical properties of sol...
Abstract Long-range interactions occurring in heterogeneous materials are responsible...
Thermoelastic wave propagation suggests a coupling between elastic deformation and heat conduction i...