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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

BENTONITE Finite element Materials 74B05 classical linear elasticity Cosserat continuum Couplage Génie civil Ciment riche en mayénite Composite coats Building Modélisation Méthode des éléments discrets Confinement Plasticity 74Q15 effective constitutive equations 1 Alexios Aivaliotis Concrete Matériaux Unbounded domains Contrainte mécanique SEDIMENT 74J10 bulk waves 74A60 micromechanical theories Anchor BETON ARME Couple stress model Sediment Condensation statique CHARGE Boucle de grains Seismic behaviour Enriched continuum mechanics ARGILE 74M25 micromechanics Béton armé Band-gaps Enriched continua Finite elements Clusters Chaine de forces Size effects 74J05 linear waves Reinforced concrete Microstructure DALLE Metamaterials Dynamic behavior Ettringite binder BIOMATERIAU Éléments finis Ciment alumineux Composite Wave propagation Micromorphic continuum Characteristic length Bounded stiffness Finite element method Comportement des structures 74J20 wave scattering Interface Cinématique Damage Comportement sismique Generalized continua Corresponding author Subdomain coupling 75J15 surface waves Cement rich in mayenite Failure CISAILLEMENT Matériau granulaire Endommagement Cisaillement 74A30 nonsimple materials Granular material EXPERIMENTATION Instability Hydratation Civil engineering Relaxed micromorphic model Transient analysis Shear Fissuration Anisotropy Hydration Domain decomposition Comportement dynamique Bifurcation Wave Propagation Dredged sediments Discrete element method Chape autonivelante BRIQUE Coupling Wave-propagation Cinétique Modeling Cement COMPORTEMENT MECANIQUE Early age Bâtiment

 

 

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