Submitted by Anonyme (not verified) on Mon, 11/29/2021 - 10:03
Keywords:
CORROSION SCIENCE
SURFACE ENGINEERING
Development of new materials for bipolar plates dedicated to hydrogen electromobility
Project Leader:
SYMBIO
INSA’s scientific leader:
Bernard NORMAND
The introduction of fuel cells for surface vehicles requires a review of stack concepts to make them lighter, more compact and more durable. These objectives require, among other things, the development of new materials dedicated to the bipolar plate. The MATEIS (Materials: Engineering and Science) laboratory has been asked to work on the conceptualisation and performance evaluation of these new materials. To do this, it is using its expertise in surface engineering, corrosion science and electrochemical measurement.
Submitted by Anonyme (not verified) on Fri, 09/24/2021 - 11:24
AUtonomous Self-plugging CARs with CARA and AuRA
Project Leader:
GULPLUG
INSA’s scientific leader:
Xavier BRUN
Pour un véhicule 100% autonome... en utilisation ET en recharge
L'objectif de ce projet est de réaliser un commutateur électrique afin de pouvoir recharger un véhicule électrique par des sources d'énergie différentes. Le dispositif détecte automatiquement la source connectée et oriente le flux de puissance vers le dispositif de charge. Ce projet associant GULPLUG, NAVYA et l’INSALyon via le laboratoire AMPERE a obtenu un financement public dans le cadre du dispositif « R&D Booster » de la Région Auvergne-Rhône-Alpes.
INSA Challenge:
Transport : Structures, Infrastructures et Mobilités
Submitted by Anonyme (not verified) on Tue, 03/30/2021 - 16:10
Keywords:
MATERIALS
STRUCTURES
Contribuer au développement économique des PME
Project Leader:
ENTPE
INSA’s scientific leader:
Ali DAOUADJI
L’objectif de la plateforme IMAST (Plateforme d’Innovation dans les Matériaux et Structures dans le secteur du génie civil) est de permettre aux PME de réaliser des essais dans des conditions expérimentales le plus proches possibles des situations dans lesquelles seront soumis les matériaux et structures.
Submitted by Anonyme (not verified) on Mon, 03/29/2021 - 10:42
Performance and Behavior at the nanoscale of new efficient and environmentally Friendly nanolubricants
Project Leader:
ECL-LTDS
INSA’s scientific leader:
Lucile JOLY-POTTUZ
The objective of the BeFriend project consists in finding the best test conditions and MoS2 nanoparticles properties (size, morphology, structure, defectness, chemistry) aimed at optimizing their tribological performances.
The effect of the environment (resistance to oxidation) on the lubricating properties of the nanoparticles will be addressed. Friction tests in controlled environment (T°C, oxygen pressure) combined with in situ characterization will be carried out
Submitted by Anonyme (not verified) on Thu, 01/21/2021 - 16:39
Keywords:
HIGH POWER COMPONENT
MICRO-RAMAN SPECTROSCOPY
Optical characterization of high power GaN components
Project Leader:
INSA LYON - LABORATOIRE AMPERE
INSA’s scientific leader:
Camille SONNEVILLE
Wide-Bandgap semiconductors such as silicon carbides (SiC) or Gallium Nitrides (GaN) are particularly interested in power electronic. Indeed Wide-bandgap semiconductors permit devices to operate at much higher voltages, frequencies and temperatures than conventional semiconductor materials like silicon. They will be a foundational technology in new electrical grid and alternative energy devices.
Submitted by Anonyme (not verified) on Tue, 11/24/2020 - 16:02
Keywords:
COMPOSITE MATERIALS
HYDROGEN STORAGE
FASTCURE COMPOSITE VESSEL
Project Leader:
CEA DAM Monts
INSA’s scientific leader:
Jean-François GERARD
The FASTCURE2 project deals with the development of innovative thermosets combined with carbon fibers as prepregs for high pressure (700 bars) hydrogen storage tanks. Such Type IV H2 tanks are essential components for the development of hydrogen economy, i.e. for being combined with fuel cells and for stationary applications.
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