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ELyTMaX est un Laboratoire de Recherche International (IRL) lancé par le CNRS (France), l'Université de Lyon (France) et l'Université du Tohoku (Japon). ELyTMaX est situé à l'Université du Tohoku à Sendai et à l'Université de Lyon. Le laboratoire regroupe environ une vingtaine de personnes (à la fois en France et au Japon) incluant des Professeurs, Maîtres de Conférences, postDoc, doctorants et Master en double diplôme, et du personal administratif.
Dernières Publications
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Sylvain Dancette, Fayaz Foroozmehr, Nilesh Kumar, Patrice Chantrenne, Cedric Pouvreau, et al.. Influence of the current source on microstructure and degradation of the copper-steel interface during resistance spot welding. The 76th IIW Annual Assembly and International Conference on Welding and Joining, Jul 2023, Singapore (SG), Singapore. ⟨hal-04404510⟩
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Kiyoaki T Suzuki, Shun Omura, Shun Tokita, Yutaka S Sato, Sylvain Dancette. Interfacial Microstructure of Dissimilar Weld of Steel to Aluminum Containing Intermediate Metals and its Effect on Mechanical Properties. The 76th IIW Annual Assembly and International Conference on Welding and Joining, Jul 2023, Singapore (SG), Singapore. ⟨hal-04404512⟩
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Yuanyuan Liu, Laurent Daniel, Benjamin Ducharne, Gaël Sebald, Mickaël Lallart, et al.. Anisotropic magnetostriction for low-frequency energy harvesting applications. 2023 IEEE International Magnetic Conference - Short Papers (INTERMAG Short Papers), May 2023, Sendai, France. pp.1-2, ⟨10.1109/INTERMAGShortPapers58606.2023.10305050⟩. ⟨hal-04399718⟩
Données de contact
Coordonnées :
Room #503 Material Solutions Center (MaSC)
Engineering sciences Lyon-Tohoku joint lab for Materials under extreme conditions (ELyTMaX), Tohoku University
2-1-1 Katahira, Aoba-ku, Sendai 980-0813 Japan
Site Web de ELyTMaX
Room #503 Material Solutions Center (MaSC)
Engineering sciences Lyon-Tohoku joint lab for Materials under extreme conditions (ELyTMaX), Tohoku University
2-1-1 Katahira, Aoba-ku, Sendai 980-0813 Japan
Site Web de ELyTMaX
Documents en texte intégral
122
Recherche
Mots clés
Cell membranes
Caloric materials
Magnetic sensor
Water uptake
Magnetic losses
Active regeneration
Cellulose nanofiber
Strain induced crystallization
Magnetic Barkhausen noise
Capillary condensation
Simulation
CARBON-STEEL
Cole-Cole model
Compressive stress
Finsler geometry
Barkhausen noise
Multiscale model
Internal stress
Barkhausen
Non-destructive testing
Ericsson cycle
Dealloying
Capteur capacitif
Aimantation
Contraintes mécaniques
Magnetic incremental permeability
Permeability
Chemical microstructure
Predictive maintenance
Condensation capillaire
Magnetization rotation
Beta relaxation
Thermal gradient
Computational morphogenesis
Arterial stiffness
Polymer
Solid-state cooling
Corrosion resistance
Carbon steel
Magnetic non-destructive testing
Energy conversion
Analytical criterion
Amorphous polymer
Polyurethane
Bruit Barkhausen
Magnetic hysteresis
Natural rubber
Brake squeal
Agglomerated powder
Adhesive bonding
Fractional derivatives
Energy harvesting
Bruit de Barkhausen
Adhesion
Elastocaloric
Gallium nitride GaN
Eddy current testing
Conducting polymers
Activation energy
Energy density
Abradant concentration
Magnetostriction
Ceramic powder
Aging
Magnetic laminations stack
Contact area
Anomalous diffusion
Brownian motion
Epoxy coating
Bayesian optimization
Compressive residual stress
Cell structure
Jiles-Atherton model
Carbon nanotubes
Bending
Composite
Magnetization mechanism
Rubber elasticity
Ferroelectric
Frequency dependence
Computer simulation
Butadiene
Additive manufacturing
Ceramic particles
Local defect
Absorption de l’eau
Actuators
Fluid dynamics
Ionic liquid
Polymers
Infrared imaging
Alternating losses
Architected materials
Hysteresis
Capacitive sensor
Cold spray
Anelastic relaxation
BARKHAUSEN NOISE
Fractional derivative
Polymer coating