Olivier Buchheit scite author profile

Olivier Buchheit

5Publications

54Citation Statements Received

69Citation Statements Given

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Hybrid Layers Deposited by an Atmospheric Pressure Plasma Process for Corrosion Protection of Galvanized Steel

D¹,

Bour²,

Bardon³

et al. 2010

J. Nanosci. Nanotech.

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Finding alternative treatments to reproduce anticorrosion properties of chromated coatings is challenging since both physical barrier and self-healing effects are needed. Siloxane based treatments are known to be a promising way to achieve physical barrier coatings, mainly plasma polymerized hexamethyldisiloxane (ppHMDSO). In addition, it is known that cerium-based coatings can also provide corrosion protection of metals by means of self-healing effect. In this frame, innovative nanoAlCeO3/ppHMDSO layers have thus been deposited and studied. These combinations allow to afford a good physical barrier effect and active properties. Liquid siloxane and cerium-based particles mixture is atomized and introduced as precursors into a carrier gas. Gas mixture is then injected into an atmospheric pressure dielectric barrier discharge (DBD) where plasma polymerization of the siloxane precursor occurs. The influence of cerium concentration on the coating properties is investigated: coating structure and topography have been studied by scanning electron microscopy (SEM) and interferometry, and corrosion resistance of these different coatings is compared by electrochemistry techniques: polarization curves and electrochemical impedance spectroscopy (EIS). Potential self-healing property afforded by cerium in the layer was studied by associating EIS measurements and nanoscratch controlled damaging. Among the different combinations investigated, mixing of plasma polymerized HMDSO and AICeO3 nanoparticles seems to give promising results with a good physical barrier and interesting electroactive properties. Indeed, corrosion currents measured on such coatings are almost as low as those measured with the chromated film. Combination of nanoscratch damaging of layers with EIS experiments to investigate self-healing also allow to measure the active protection property of such layers.

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Reciprocating sliding of uniaxially-stretched ultra-high molecular weight polyethylene for medical device applications

Eddoumy¹,

Addiego²,

Célis

et al. 2011

Wear

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Does Texturing of UHMWPE Increase Strength and Toughness?: A Pilot Study

Addiego¹,

Buchheit²,

Ruch³

et al. 2011

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Background Crosslinked UHMWPE as a bearing surface in total joint arthroplasty has higher wear resistance than conventional UHMWPE but lower strength and toughness. To produce crosslinked UHMWPE with improved mechanical properties, the material can be treated before crosslinking by tension to induce molecular alignment (texture). Questions/purposes We asked how (1) the microstructure of UHMWPE evolves when subjected to tension and (2) whether the new microstructure (texture) increases strength and toughness. Methods We analyzed microstructure evolution of UHMWPE by small-and wide-angle xray scattering and scanning electron microscopy. We then developed a method to characterize the local strength and toughness of undeformed and textured UHMWPEs by means of nanoscratch tests along and perpendicular to the specimen axis. In three samples we determined the scratch characteristics in terms of deformation mode, coefficient of friction (l), and viscoelastic recovery (r). Results Before the tensile process, the scratch behavior of UHMWPE was characterized by a l ranging from 0.64 to 0.68, no cracking, and r ranging from 0.58 to 0.60. Microfibrillar morphologic features resulted from the tensile process. The new microstructure had an increased strength (r = 0.78) and decreased toughness (cracking + l = 0.77) perpendicular to the fibril axis and decreased strength (r = 0.53) and increased toughness (no cracking + l = 0.55) parallel to the fibril axis. Conclusions Textured UHMWPE behaves like a fiber composite with high strength and toughness in well-defined directions. However, the effect of crosslinking on these specific properties is unknown and therefore it is important to verify that the properties are retained. If wear resistance of crosslinked-textured UHMWPE is at least as high as that of crosslinked UHMWPE, novel medical devices made of crosslinked-textured UHMWPE could be developed and clinically tested.

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Modifications of the Polylactic Acid Surface Properties by DBD Plasma Treatment at Atmospheric Pressure

Vergne¹,

Buchheit²,

Eddoumy³

et al. 2011

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In this study, nitrogen plasma treatment at atmospheric pressure was used to modify the surface of poiylactic acid (PLA). especially /V.Î low surface energy and wettahility. which do not favor the interface adhesion with another material when blended. The dielectric hairier discharge (DBD) configuration was selected. Treatment time was varied, and induced chemical and topographical surface modifications were assessed. Attention was first focused on the effect of the treatment duration on the hydrophilicity and the topography of PLA. Results showed that plasma treatment enhanced the PLA surface hydrophilicity. The overall suiface roughness was also found to he increased. Moreover, both properties rose with increasing treatment time. Thus, according to the Wenzel's relation, the surface roughening contributed to the enhancement of the PLA hydrophilicity generated by plasma treatment. Then, the chemical surface changes induced by specific plasma activation were studied. Analyses pointed out the incorporation of hydrophilic groups such as nitrogen functional species after treatment. The stability of this treatment under air was also investigated: measurements showed that the hydrophobic recovery mainly occurred the first hours of storage.

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COMBINING WLI AND SEM TECHNIQUES TO OBTAIN A 4D SURFACE IMAGE OF A ppHDMSO/AlCeO3 NANOCOMPOSITE

Buchheit¹,

Arnoult²,

Eddoumy³

et al. 2011

Image Anal Stereol

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Compositional images from a SEM (scanning electron microscope) are sometimes complemented by quantitative topographical data from devices such as an AFM (atomic force microscope) or WLI (white light interferometer). Indeed, even if a SEM could provide both kinds of information (composition and topography), the topographical data are incomplete because the SEM does not allow measuring the vertical dimension (i.e., perpendicular to the measurement plane). Thus these two kinds of information are usually measured using two different techniques, and at different locations on the sample. Mean values of surface composition are then linked to mean values of topography, and as a consequence this approach does not allow precisely linking a local topographical peak to its corresponding composition. The present work deals with a SEM/WLI combination methodology, based on the characterization, at the same location, of a nanocomposite (nanoparticles of AlCeO 3 dispersed in a plasma-polymerized hexamethyldisiloxane ppHMDSO matrix and deposited by atmospheric plasma on a glass substrate) developed for improving anticorrosion properties. SEM images allow the supposition that the protuberances (peaks) observed on the surface of a specimen are linked to the nanoparticles dispersed in the polymer coating, but this link is not fully convincing. Thanks to a precise localization method, SEM compositional data and WLI topographical data are here measured at the same location. The recombination of both signals to form a 4D image (3D geometry and 1D composition) allows linking protuberances to nanoparticles aggregates without ambiguity. This composite image appears to be an interesting new tool (at the scale of observation, i.e., hundreds of micrometers) for the study of nanostructured coatings.

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