We evaluated the performance of the classical and spectral finite element method in the simulation of elastodynamic problems. We used as a quality mea-sure their ability to capture the actual dispersive behavior of the material. Four different materials are studied: a homogeneous non-dispersive material, a bilayer material, and composite materials consisting of an aluminum matrix and brass inclusions or voids. To obtain the dispersion properties, spatial periodicity is assumed so the analysis is conducted using Floquet-Bloch principles. The ef-fects in the dispersion properties of the lumping process for the mass matrices resulting from the classical finite element method are also investigated, since that is a common practice when the probl...
If the nodes for the spectral element method are chosen to be the Gauss-Legendre-Lobatto points and ...
International audiencePhononic crystals are artificial periodic structures that can alter efficientl...
This paper presents a numerical method for two-dimensional solid phononic crystals having a defect. ...
We evaluated the performance of the classical and spectral finite element method in the simulation o...
The mechanical response of heterogeneous solids below a given length scale starts to be controlled b...
All in-text references underlined in blue are linked to publications on ResearchGate, letting you ac...
We present here a fast and easily realized computational approach based on the finite element method...
The numerical determination of dispersion relations in periodic materials via the finite element met...
The finite element (FE) method offers an efficient framework to investigate the evolution of phononi...
Phononic band gap crystals (PnCs) are periodic composite materials and well known for their novel pr...
The performance of a Cosserat/micropolar solid as a numerical vehicle to represent dispersive media ...
A weak formulation method is presented to analyze the propagation of acoustic waves in periodic crys...
International audienceThe band structure is a central concept in the field of phononics. Indeed, cap...
We address the numerical simulation of periodic solids (phononic crystals) within the framework of c...
In den letzten Jahrzehnten hat der Bereich der Strukturdynamik im Ingenieurwesen zunehmend an Bedeut...
If the nodes for the spectral element method are chosen to be the Gauss-Legendre-Lobatto points and ...
International audiencePhononic crystals are artificial periodic structures that can alter efficientl...
This paper presents a numerical method for two-dimensional solid phononic crystals having a defect. ...
We evaluated the performance of the classical and spectral finite element method in the simulation o...
The mechanical response of heterogeneous solids below a given length scale starts to be controlled b...
All in-text references underlined in blue are linked to publications on ResearchGate, letting you ac...
We present here a fast and easily realized computational approach based on the finite element method...
The numerical determination of dispersion relations in periodic materials via the finite element met...
The finite element (FE) method offers an efficient framework to investigate the evolution of phononi...
Phononic band gap crystals (PnCs) are periodic composite materials and well known for their novel pr...
The performance of a Cosserat/micropolar solid as a numerical vehicle to represent dispersive media ...
A weak formulation method is presented to analyze the propagation of acoustic waves in periodic crys...
International audienceThe band structure is a central concept in the field of phononics. Indeed, cap...
We address the numerical simulation of periodic solids (phononic crystals) within the framework of c...
In den letzten Jahrzehnten hat der Bereich der Strukturdynamik im Ingenieurwesen zunehmend an Bedeut...
If the nodes for the spectral element method are chosen to be the Gauss-Legendre-Lobatto points and ...
International audiencePhononic crystals are artificial periodic structures that can alter efficientl...
This paper presents a numerical method for two-dimensional solid phononic crystals having a defect. ...