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of GEOMAS Laboratory - Geomechanics, Materials, Structure

 

The GEOMAS laboratory (Geomechanics, Materials, Structure) is a research team (EA 7495) under the supervision of INSA Lyon.

The laboratory is located on the Lyon-tech la Doua campus in Villeurbanne and brings together professors and researchers from the Civil Engineering field, particularly in the fields of structural mechanics, materials and geomechanics.

The laboratory's objective is to conduct excellent academic research, with partnership-based research, aimed at meeting industrial and societal needs in the fields of construction in the broadest sense (geomechanics, materials and structures) in interaction with their environment.

 

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Keywords

Enriched continuum mechanics Sediment Fresh wood ARGILE Failure Gradient elasticity Bounded stiffness Génie civil EXPERIMENTATION Finite element method Micromorphic continuum Domain decomposition CHARGE Cement rich in mayenite Couple stress model Comportement sismique Delaunay tessellation Finite elements BETON ARME Cinétique Méthode des éléments discrets Wave-propagation Dynamic behavior Bifurcation Confinement Fissuration Ettringite binder Coupling Clusters Unbounded domains DALLE CISAILLEMENT Materials Force chains Comportement dynamique Band-gaps SEDIMENT Concrete Instability Wave Propagation Grain breakage Chape autonivelante Experiments Matériaux Enriched continua Cosserat continuum Seismic behaviour Plasticity Condensation statique Early age 74A60 micromechanical theories Éléments finis Metamaterials 74Q15 effective constitutive equations 1 Alexios Aivaliotis Composite coats Heterogeneous asynchronous time integrator Endommagement Wave propagation Building Ciment alumineux Corresponding author Ciment riche en mayénite Cisaillement Granular material Contrainte mécanique 75J15 surface waves Modeling Transient analysis Anchor Hydratation Civil engineering Reinforced concrete Finite element modeling Interface Bâtiment BIOMATERIAU Béton armé Granular materials Couplage 74J10 bulk waves Anisotropy Characteristic length 74J20 wave scattering 74M25 micromechanics Granulométrie BENTONITE Subdomain coupling Finite element Discrete element method BRIQUE 74B05 classical linear elasticity Relaxed micromorphic model Dredged sediments 74J05 linear waves Generalized continua Modélisation Damage Size effects Shear COMPORTEMENT MECANIQUE

 

 

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