Titre : Inhibition of microbiologically influenced corrosion by cathodic protection in marine environment
Année : 2004
Auteur(s) : Pineau S. Braisaz T. Dupont-Morral I. Lefèvre Y.
Abstract : Non disponible
Eurocorr 2004, Nice
Titre : Microbially influenced corrosion : studies on Enterobacteria isolated from seawater environment and influence of toxic metals on bacterial biofilm and biocorrosion
Année : 2004
Auteur(s) : Bermond-Tilly D. Janvier M. Pineau S. Dupont-Morral I. Grimont PAD.
Abstract : Non disponible
Eurocorr 2004, Nice
Titre : Thin layers of iron corrosion products electrochemically deposited on inert substrates: synthesis and behaviour
Année : 2004
Auteur(s) : Peulon S. Antony H. Legrand L. Chaussé A.
Abstract : The deterioration of iron-based materials due to corrosion is a well-known problem. A variety of corrosion products can be formed depending on the species present in the medium (soil, water, etc.). Understanding the transformation pathways during the evolution of a corrosion layer is a hard challenge since it is difficult to clearly identify the contributions of each corrosion product. That is why the development of electrodes with only one iron corrosion product deposited as thin layers on inert substrates (gold, silver) presents many advantages to carry out electrochemical studies. In this way, the present paper reports successful electrochemical synthesis of thin layers deposited on inert substrates (gold, silver) of commonly occurring iron corrosion products as siderite, green rusts incorporating carbonate or sulphate anions, magnetite and goethite. The films are characterised by usual ex-situ techniques: FTIR, SEM, and XRD. The study of the electrochemical behaviour of thin films of green rust deposited on silver illustrates the potential application of such electrodes.
Titre : Electrochemical synthesis of lepidocrocite thin films on gold substrate—EQCM, IRRAS, SEM and XRD study
Année : 2004
Auteur(s) : Antony H. Peulon S. Legrand L. Chaussé A.
Abstract : Lepidocrocite thin films have been electrochemically synthesised on polycrystalline Au substrates following two ways, direct synthesis and synthesis via green rust (GR). The direct synthesis consists in oxidising Fe(II) species in a 0.4 M NaCl/0.02 M Met-Imidazole/0.01 M FeCl2 solution at pH 7.5. The synthesis via GR consists in converting a green rust thin film into lepidocrocite thin film by galvanostatic oxidation. The thin films have been characterised by means of electrochemical quartz crystal microbalance, scanning electron microscopy, X-ray diffraction and infrared reflection–absorption spectroscopy.
