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Hard UV-curable organo-mineral coatings for optical applications
Danièle Blanc-Pélissier, Danièle Blanc 1, Arndt Last 2, Janyce Franc 1, Sophie Pavan 3, Jean-Luc Loubet 3
(07/09/2006)
Organically-modified silicate incorporating various amounts of zirconium precursor was synthesized via a sol-gel route. The material was deposited as thin films on PMMA substrates and densified by UV-curing. Mechanical properties were measured by nanoindentation and data were recorded continuously as a function of the penetration depth during the loading-unloading cycles. Values of hardness and Young modulus were found in the range 340 to 440 MPa and 4 to 6 GPa respectively. It was shown that these values could be tailored by varying the relative amount of zirconium in the layer. The material exhibited a very elastic behaviour that was related to its high degree of cross-linking assessed by infrared spectroscopy. Results were compared with measurements published by various groups on related materials. The mechanical and optical properties of the samples made this class of material promising as hard coatings for optical applications.
1 :  LAboratoire Hubert Curien (LAHC)
CNRS : UMR5516 – Université Jean Monnet - Saint-Etienne
2 :  Institute for Microstructure Technology (IMT)
Research Center Karlsruhe
3 :  Laboratoire de Tribologie et Dynamique des Systèmes (LTDS)
CNRS : UMR5513 – Ecole Centrale de Lyon – Ecole Nationale d'Ingénieurs de Saint Etienne
domaine  :  Physique/Matière Condensée/Science des matériaux
mots-clés : Nanoindentation – mechanical properties – UV-cured coatings – organic-inorganic thin films – sol-gel process
ujm-00110864, version 1
http://hal-ujm.ccsd.cnrs.fr/ujm-00110864
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Contributeur : Danièle Blanc-Pélissier <>
Soumis le : Jeudi 2 Novembre 2006, 10:44:57
Dernière modification le : Jeudi 2 Novembre 2006, 10:44:57