CAMFRE (Growth of low resistivity alumina layers by plasma electrolytic oxidation)
Abstract
CAMFRE concerns the plasma electrolytic oxidation (PEO) also known as micro-arc oxidation (MAO) processing of aluminium alloys.
It specifically deals with the incorporation of conductive micro- or nano-particles in the growing layer to achieve alumina layers with a significant electrical conductivity.
This will therefore extend the applications of PEO processed aluminium to a wider range of applications for which electrical conductivity is needed together with tribological properties and corrosion protection. This is for instance of great importance in the connector domain.
The strategy of the project will couple:
- studies of the mechanisms that govern the PEO process depending on the nature of the added particles (metallic or carbon-based ones)
- investigations of the mechanisms of particle incorporation inside the porosity network of the growing PEO layer, thermodynamic calculations
- structural and functional (especially conductivity, corrosion and wear resistance) properties of the grown layers
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Partners
Amphenol-Socapex
Centre inter-universitaire de recherche et d’ingénierie des matériaux - CIRIMAT (CNRS – Université Toulouse 3 Paul Sabatier – INPT)
Institut Jean Lamour (porteur)
Laboratoire de génie chimique – LGC (CNRS - Université Toulouse 3 Paul Sabatier – INPT)
Radiall
Souriau
TE connectivity
Dates
From 2022/03/01 to 2025/08/31
Funding
599.295 € from the ANR
Contact
gerard.henrion@univ-lorraine.fr