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Volume 6

Research & Reviews: Journal of Material Sciences

ISSN: 2321-6212

Advanced Materials 2018

September 04-06, 2018

September 04-06, 2018 | Zürich, Switzerland

21

st

International Conference on

Advanced Materials & Nanotechnology

Development of functionalized coating by sol-gel process on aluminium alloy

Clément Genet

1

, Marie-Joëlle Menu

1

, Florence Ansart

1

, Marie Gressier

1

and

Olivier Gavard

2

1

University of Toulouse, France

2

Amphenol Socapex, France

T

he goal of this study is to develop an innovative coating in accordance with the environmental regulations REACH and RoHS.

Innovation will consist in an original approach of the sol-gel process implementation. Compared to the current plating’s,

environmental unfriendly processes due to hazardous chemicals to health and environment, this innovative liquid process is very

interesting to work on many different substrates. The formulation is designed according to the required properties of the coating,

throughout an appropriate surface structuration. The originality of the approach is to develop a formulation with an adequate choice

of precursors and fillers which bring simultaneously anticorrosion and electrical conductivity. The literature provides many sol-

gel formulations, and the most suitable for complex shape parts are composed of both organic and inorganic precursors. They are

named organic inorganic hybrid (OIH) sol-gel coating-1. Coating flexibility and anticorrosion properties are some of the properties

provided by an OIH coating. In our study, organic and inorganic precursors are selected towards anticorrosion properties. Inhibitor

is also added to sol-gel matrix-2 to improve the corrosion resistance. Some works have been performed on the influence of different

fillers on the electrical properties of the polymer matrix-3, but the innovative study here is to combine the anticorrosion and electrical

properties in a coating prepared by sol-gel route. To bring electrical properties to sol-gel coating, different fillers are taking on and

studied. Influence of fillers natures, form factors and quantities are evaluated to find an optimum composition. Electrical, viscosity

and hydrophobic characterization are accomplished to file fillers in function of their behavior in the sol-gel matrix. Structural

and microstructural characterizations are performed by 3D optical microscopy and scanning electron microscopy. The chemical

interaction between the sol-gel coating and the substrate is also deeply characterized and specially the durability of materials under

corrosive conditions by coupling salt spray test, electrochemical impedance spectroscopy, nano scratch and nano indentation.

Figure-1: (a)

OIH sol composition and (b) SEM micrography of OIH coatings on aluminium alloy substrate.

Recent Publications

1. Figueira R, Fontinha I, Silva C and Pereira E (2016) Hybrid sol-gel coatings: Smart and green materials for corrosion

mitigation. Coatings; 6(1): 12.

2. Cambon J B, Esteban J, Ansart F, Bonino J P, Turq V, Santagneli S H, Santilli CV and Pulcinelli S H (2012) Effect of cerium

on structure modifications of a hybrid sol-gel coating, its mechanical properties and anti-corrosion behavior. Materials

Research Bulletin; 47(11): 3170-3176.

3. Zhang W, Blackburn R S and Dehghani-Sanij A A (2007) Effect of carbon black concentration on electrical conductivity

of epoxy resin-carbon black-silica nanocomposites. Journal of Materials Science; 42(18): 7861-7865.

Biography

Clément Genet is a PhD Student at University of Toulouse Paul Sabatier and Research Associate at CIRIMAT laboratory and Amphenol Socapex Company. He has

obtained his Engineer’s degree in Materials Science at ESIR, France and has a specialization with his Master’s degree in Materials Science forAeronautics andAerospace

at University of Toulouse, France. He has experience in the synthesis and characterization of nanostructured materials and coating for more particularly anticorrosion

properties in aeronautic field.

genet@chimie.ups-tlse.fr

Clément Genet et al., Res. Rev. J Mat. Sci. 2018, Volume 6

DOI: 10.4172/2321-6212-C3-020