Evolution des propriétés d`un film inhibiteur de corrosion sous l

Références bibliographiques
Références
bibliographiques
- 133 -
Références bibliographiques
[A]
[ALE-01] ALEXANDER M.R., BEAMSON G., BLOMFIELD C.J. Interaction of carboxylic
acids with the oxyhydroxide surface of aluminium : poly(acrylic acid), acetic acid
and propionic acid on pseudoboehmite. Journal of Electron Spectroscopy and
Related Phenomena, 2001, vol. 121, pp. 19-32.
[ASC-02] ASCOTEC : Les spécialistes de l’anticorrosion. [en ligne]. Disponible sur :
http://www.ascotran.com/ascotec.html (consulté en octobre 2002).
[ASS-02] ASSOULI B. Etude par émission acoustique associée aux méthodes
électrochimiques de la corrosion et de la protection de l’alliage cuivre-zinc (60/40)
en milieux neutre et alcalin. Thèse de doctorat, INSA de Lyon, 2002, 164 p.
N°:02ISAL0103.
[AST-93] ASTM. Standard Test Method for Corrosion Test for Engine Coolants in
Glassware. ASTM D 1384 – 93. Philadelphia: ASTM, 1993, 6 p.
[AUD-99] AUDISIO S. Ed. Le Livre multimedia de la corrosion [CDROM]. Lyon : LPCI,
INSA de Lyon, 1999.
[B]
[BEA-76]
BEAUNIER
L.,
EPELBOIN
I.,
LESTRADE
J.C.,
TAKENOUTI
H.
Electrochemical and Scanning Electron Microscope study of painted Fe. Surface
Technology, 1976, vol. 4, pp. 237-254.
[BEN-99] BENTISS F., TRAISNEL M., GENGEMBRE L., LAGRENEE M. A new triazole
derivative as inhibitor of the acid corrosion of mild steel: electrochemical studies,
weight loss determination, SEM and XPS. Applied Surface Science, 1999, vol.
152, pp. 237-249.
- 134 -
Références bibliographiques
[BER-02] BERANGER G., MAZILLE H. Corrosion et anticorrosion : pratique industrielle.
Paris : Lavoisier, Hermès Science. Publications, 2002, 303 p. (Traité Mécanique et
ingénierie des Matériaux. Alliages métalliques). ISBN 2-7462-0467-3.
[BOM-03] BOMMERSBACH P., DUMONT-ALEMANY C., MILLET J-P. Etude de
l’efficacité d’un nouvel inhibiteur de corrosion par électrode à disque tournant. In :
Actes du XVIème Forum sur les impédances électrochimiques. Paris : Ed. C.
Gabrielli, 2003, pp 317-326.
[BOM-04] BOMMERSBACH P., DUMONT-ALEMANY C., MILLET J-P. Electrochemical
study of the behavior in corrosive media of a new friendly environmental inhibitor.
In : Proceeding Eurocorr 2004, 12-16 septembre 2004 [CD-ROM].
[BOM-05a] BOMMERSBACH P., DUMONT-ALEMANY C., MILLET J-P. Effet de
l’hydrodynamique sur la formation et la tenue d’un film inhibiteur :
caractérisation par EIS. In : Actes du XVIIème Forum sur les impédances
électrochimiques. Paris : Ed. C. Gabrielli, 2005, pp 51-60.
[BOM-05b] BOMMERSBACH P., DUMONT-ALEMANY C., MILLET J.P., NORMAND
B. Electrochemical Characterization of a corrosion inhibitor : influence of
temperature on the inhibition mechanism. In : 207th Meeting of the
Electrochemical Society, 15-20 mai 2005, Quebec City (CANADA) [CDROM].
[BOM-05c] BOMMERSBACH P., DUMONT-ALEMANY C., MILLET J.P., NORMAND
B. Formation and behaviour study of an environment- friendly corrosion
inhibitor by electrochemical methods. Electrochimica Acta, 2005. Accepté pour
publication.
[BON-83 ] BONNEL A., DABOSI F., DESLOUIS C., DUPRAT M., KEDDAM M.,
TRIBOLLET B. Corrosion Study of a carbon steel in neutral chloride solution by
impedance techniques. Journal of the Electrochemical Society, 1983, vol. 130, pp.
753-761.
- 135 -
Références bibliographiques
[BRE-94] BRETT M.A., GOMEZ A.R.I., MARTINS J.PS. The electrochemical behaviour
and corrosion of aluminium in chloride media. The effect of inhibitor anions.
Corrosion Science, 1994, vol. 36, pp. 915-925.
[BRU-84] BRUG G.J., VAN DEN EEDEN A.L.G., SLUYTERS-REHBACH M.,
SLUYTERS J.H. The analysis of electrode impedances complicated by the
presence of a constant phase element. Journal of Electroanalytical Chemistry,
1984, vol. 176, pp. 275-295.
[C]
[CHE-99] CHEN Y., JEPSON W. P. EIS measurement for corrosion monitoring under
multiphase flow condition. Electrochimica Acta, 1999, vol. 44, pp. 4453-4464.
[CHE-02] CHETOUANI A., HAMMOUTI B., AOUNITI A., BENCHAT N., BENHADDA
T. New synthesised pyridazine derivatives as effective inhibitors for the corrosion
of pure iron in HCl medium. Progress in Organic Coatings, 2002, vol. 45, pp. 373378.
[CHE-04] CHETOUANI A., MEDJAHED K., SID-LAKHDAR K.E. Poly (4-vinylpyridinepoly-(3-oxide-ethylene)tosyle) as an inhibitor for iron in sulphuric acid at 80 °C.
Corrosion Science, 2004, vol. 46, pp. 2421-2430.
[CHE-05] CHETOUANI A., HAMMOUTI B., BENHADDA T., DAOUDI M. Inhibitive
action of bipyrazolic type organic compounds towards corrosion of pure iron in
acidic media. Applied Surface Science, 2005. Accepté pour publication.
[D]
[DAG-68] DAGUENET M. Etude du transport de matière en solution à l’aide des électrodes
à disque et à anneau tournants. International Journal of Heat and Mass transfer,
1968, vol. 11, pp. 1581-1596.
- 136 -
Références bibliographiques
[DIA-04] DIAZ B., JOIRET S., KEDDAM M., NOVOA X.R., PEREZ M.C., TAKENOUTI
H. Passivity of iron in red mud’s water solutions. Electrochimica Acta, 2004, vol.
49, pp. 3039-3048.
[DIG-96] DIGUET L. Protection contre la corrosion par des revêtements fluorés. Etude par
voie électrochimique. Thèse de doctorat. Paris : Université Paris VI, 1996, 250 p.
[DUP-81] DUPRAT M., DABOSI F., MORAN F., ROCHER S. Inhibition of corrosion of a
carbon steel by the aliphatic fatty polyamines in association with organic
phosphorous compounds in 3% sodium chloride solutions. Corrosion-Nace, 1981,
vol. 37, pp. 262-266.
[E]
[ESS-04] ES-SALAH K., KEDDAM M., RAHMOUNI K., SHRIRI A., TAKENOUTI H.
Aminotriazole as corrosion inhibitor of Cu-30Ni alloy in 3% NaCl in presence of
ammoniac. Electrochimica Acta, 2004, vol. 49, pp. 2771-2778.
[F]
[FEL 99] FELHOSI I., KERESZTES Zs., KARMAN F. H., KALMAN E. Effect of bivalent
cations on corrosion inhibition of steel by 1-hydroxyethane-1,1diphosphonic acid.
Journal of Electrochemical Society, 1999, vol. 146, pp. 961-969.
[FEL-00] FELHOSI I., EKES R., BARADLAI P., PALINKAS G., VARGA K., KALMAN
E. Coupled radiotracer and voltametric study of the adsorption of 1-hydroxyethane-1,1-diphosphonic acid on polycrystalline gold. Journal of Electroanalytical
Chemistry, 2000, vol. 480, pp. 199-208.
- 137 -
Références bibliographiques
[FEL-02] FELHOSI I., TELEGDI J., PALINKAS G., KALMAN E. Kinetics of selfassembled layer formation on iron. Electrochimica Acta, 2002, vol. 47, pp. 23352340.
[FIA-02] FIAUD C., LEMAITRE C., PEBERE N. Inhibiteurs de corrosion. In : BERANGER
G., MAZILLE H. Corrosion et anticorrosion (pratique industrielle). Mécanique et
ingénierie des Matériaux. Lavoisier. Paris, Hermès Science Publications, 2002, pp.
245-266.
[G]
[GAN-00] GAN F., DAI. Z., WANG D., YAO L. A study of the filming kinetics of corrosion
inhibitors in Fe/Na2SO4 system using EQCM. Corrosion Science, 2000, vol. 42, n°
8, pp.1379-1388.
[GOM-98a] GOMMA G.K. Mechanism of corrosion behaviour of carbon steel in tartaric and
malic acid in the presence of Fe2+ ion. Materials Chemistry and Physics, 1998,
vol. 52, pp. 200-206.
[GOM-98b] GOMMA G.K. Influence of copper cation on inhibition of corrosion for steel in
presence of benzotriazole in sulphuric acid. Materials Chemistry and Physics,
1998, vol. 55, pp. 131-138.
[H]
[HAM-73] HAMNER NORMAN. E. Scope and importance of inhibitor technology. In : Ed.
By C.C. Nathan, Houston, NACE Corrosion Inhibitors. USA : National
Association of Corrosion Engineers, 1973, p.28-41.
- 138 -
Références bibliographiques
[HEE-98] HEEG B., MOROS T., KLENERMAN D. Persistency of corrosion inhibitor films
on C-steel under multiphase flow conditions. Part I: the jet-cylinder arrangement.
Corrosion Science, 1998, vol. 40, pp. 1303-1311.
[HON-02a] HONG T., SUN Y.H., JEPSON W.P. Study on corrosion inhibitor in large
pipelines under multiphase flow using EIS. Corrosion Science, 2002, vol. 44, pp.
101-112.
[HON-02b] HONG T., JEPSON W.P. Corrosion inhibitor studies in large flow loop at high
temperature and high pressure. Corrosion Science, 2001, vol. 43, pp. 1831-1849.
[I]
[IVA-86]
IVANOV E.S. Inhibitors of Corrosion of Metals in Acid Media, Metallurgy,
(Ingibitory korrozii metallov v kislyykh sredakh : spravochnik). Moskva :
Metallurgiia, 1986, 175 p.
[J]
[JAM-04] JAMIL H.E., SHRIRI A., BOULIF R., BASTOS C., MONTEMOR M. F.,
FERREIRA M.G.S. Electrochemical behaviour of amino alcohol-based inhibitors
used to control corrosion of reinforcing steel. Electrochimica Acta, 2004, vol. 49,
pp. 2753-2760.
[JOI-02] JOIRET S., KEDDAM M., TAKENOUTI H. Use of EIS, ring-disk electrode,
EQCM and Raman spectroscopy to study the film of oxydes formed on iron in 1M
NaOH. Cement & Concrete composites, 2002, vol. 24, pp. 7-15.
- 139 -
Références bibliographiques
[K]
[KAR-98] KARMAN F. H., FELHOSI I., KALMAN E., CSERNY I., KOVER L. The role of
oxide layer formation during the corrosion inhibition of mild steel in neutral
aqueous media. Electrochimica Acta, 1998, vol. 43, pp. 69-75.
[KLE-94] KLENERMAN D., HODGE J., JOSEPH M. Second harmonic generation at
surfaces applied to corrosion inhibition. Corrosion Science, 1999, vol. 36, pp. 301313.
[KUR-03] KUROSAKI M., SEO M., Corrosion behavior of iron thin film in deaerated
phosphate solutions by an electrochemical quartz crystal microbalance. Corrosion
Science, 2003, vol. 45, n° 11, pp. 2597-2607.
[L]
[LAN-93] LANDOLT D. Corrosion et chimie de surfaces des métaux. Lausanne : Presses
polytechniques et universitaires romandes, 1993, 553 p. ISBN 2-88074-245-5.
[LEV-42] LEVICH B., LANDAU L. Dragging of a liquid by a moving plate. Acta
Physicochimica URSS, 1942, vol. 17, pp. 42-54.
[LEV-44] LEVICH B. Theory of concentration polarization – transition regime. Acta
Physicochimica URSS, 1944, vol. 19, pp. 133-138.
[LEV-02] LEVY R. Contrôle d’épaisseur, dans les Techniques de l’Ingénieur R 1370 (paru
en juin 2002), 16 p.
[LOP-03] LOPEZ D. A., SCHREINER W. H., DE SANCHEZ S. R., SIMISON S. N. The
influence of carbon steel microstructure on corrosion layers. An XPS and SEM
characterization. Applied Surface Science, 2003, vol. 207, pp. 69-85.
- 140 -
Références bibliographiques
[LOR-80] LORBEER P., LORENZ W.J. The kinetics of iron dissolution and passivation in
solutions containing oxygen. Electrochimica Acta, 1980, vol. 25, pp. 375-381.
[LOR-83] LORENTZ W. J., MANSFELD F. Interface and interphase inhibition. In :
Proceeding of the international conference on corrosion inhibition. NACE, 16-20
mai 1983, Dallas, Texas (USA), pp. 7-13.
[LOR-86] LORENZ W.J., MANSFELD F. Dynamic system analysis in corrosion testing.
Dechema monographs, 1986, vol. 101, pp. 185-208.
[M]
[MAN-85] MANSFELD F., KENDIG M.W., LORENZ W. J. Inhibition in Neutral, Aerated
Media. Journal of Electrochemical Society, 1985, vol 32, pp. 290-296.
[MER-80] MERCIER A.D. In : Proceedings of the 5th European Symposium of Corrosion
Inhibitors, Ann. Univ. Ferrara (ITALIE), 1980, p. 553.
[MOU-92] MOULDER J., STICKLE W. F., SOBOL P.E., BOMBEN K.D. Handbook of Xray Photoelectron Spectroscopy, (2nd edition). Eden Prairie, Minn. : Physical
Electronics Division, Perkin-Elmer Corp., 1992, 259 p.
[N]
[NAC-65] NACE Glossary of Corrosion Terms. Materials Protection, 1965, vol. 4, n°1, pp.
79-80.
- 141 -
Références bibliographiques
[O]
[OCH-02] OCHOA N., BARIL G., MORAN F., PEBERE N. Study of the properties of a
multi-component inhibitor used for water treatment in cooling circuits. Journal of
Applied Electrochemistry, 2002, vol. 32, pp. 497-504.
[OCH-04a] OCHOA N., MORAN F., PEBERE N. The synergistic effect between
phosphonocarboxylic acid salts and fatty amines fort he corrosion protection of a
carbon steel. Journal of Applied Electrochemistry, 2004, vol. 34, pp. 487-593.
[OCH-04b] OCHOA N., MORAN F., PEBERE N., TRIBOLLET B. Influence of flow on the
corrosion inhibition of carbon steel by fatty amines in association with
phosphonocarboxylic acid salts. Corrosion Science, 2005, vol. 47, n°3, pp. 593604.
[OCH-04c] OCHOA N. Propriétés inhibitrices d’un mélange d’amines grasses et de sels
d’acide phosphonocarboxylique vis-à-vis de la corrosion d’un acier au carbone.
Influence des conditions hydrodynamiques sur le mécanisme d’inhibition. Thèse
de doctorat. Toulouse : Institut National Polytechnique de Toulouse, 2004, 124
p.
[P]
[PEB-88] PEBERE N., M. DUPRAT, DABOSI F., LATTE A., DE SAVIGNAC A.
Corrosion inhibition study of a carbon steel in acidic media containing hydrogen
sulphide and organic surfactants. Journal of Applied Electrochemistry, 1988, vol.
18, pp. 225-231.
[POP-03] POPOVA A., SOKOLOVA E., RAICHEVA S., CHRISTOV M. AC and DC
study of the temperature effect on mild steel corrosion in acid media in the
presence of benzimidazole derivatives. Corrosion Science, 2003, vol. 45, pp. 3358.
- 142 -
Références bibliographiques
[PUT-60] PUTILOVA L.N., BALEZIN S.A., BARRANIK V.P. Metallic Corrosion
Inhibitors. New-York : Pergamon Press, 1960, 196 p.
[R]
[RAD-65] RADOVICI O. In : Proceedings of the 2nd European Symposium of Corrosion
Inhibitors, Ann. Univ. Ferrara (ITALIE), 1965, p. 178.
[REI-85] REINHARD G., RAMMET U. In : Proceedings of the 6th European Symposium of
Corrosion Inhibitors, Ann. Univ. Ferrara (ITALIE), 1985, p. 831.
[RIG-73] RIGGS O.L. Jr, Theoritical aspects of corrosion inhibitors and inhibition. In :
NACE Corrosion Inhibitors. Ed. By C.C. Nathan, Houston, USA, 1973, pp. 7-27.
[ROD-04] RODGERS ROBERT S. Research Solutions & Ressources [en ligne]. Disponible
sur: http://www.consultrsr.com/ (consulté en 2004)
[ROS-86] ROSSITER W. B., HAMILTON F. J., Physical methods of chemistry,
Electrochemical methods, vol. 2, New-York : John Wiley & sons, Inc, 1986, 904
p. ISBN: 0-471-08027-6 (vol. 2).
[ROS-98] ROSSET R., SOK P., POINDESSOUS G., BEN AMOR M., WAHLA K.
Caractérisation de la compacité des dépôts de carbonate de calcium d’eaux
géothermales du Sud tunisien par impédancemétrie. Electrochemistry and
photochemistry, 1998, pp. 751-759.
[RUB-95] WARD M. D. Principles and applications of the Electrochemical Quartz Crystal
Microbalance. In : Israel Rubinstein. Physical electrochemistry : principles,
methods, and applications. New-York , USA : M. Dekker, 1995, pp. 293-338.
(Monographs in Electroanalytical Chemistry and Electrochemistry)
- 143 -
Références bibliographiques
[S]
[SCH-73] SCHASCHL E. Methods for evaluation and testing of corrosion inhibitors. In : .
In : Ed. By C.C. Nathan, Houston, NACE Corrosion Inhibitors, USA, National
Association of Corrosion Engineers, p. 28-41.
[SCH-79] SCHLICHTING H, KESTIN J. Boundary Layer Theory, 7th ed. New York :
McGraw-Hill, 1979, 817 p. ISBN: 0070553343.
[SCH-01] SCHILLER C.A., STRUNZ W. The evaluation of experimental dielectric data of
barrier coatings by means of different models. Electrochimica Acta, 2001, vol. 46,
pp. 3619-3625.
[SHI-88] SHIM S. H., JOHNSON D.A., MORIARTY B.E. Characterization of localized and
underdeposit corrosion in cooling water systems. In : NACE Corrosion’88
Meeting, March 21-25, 1988, Saint-Louis, Missouri (USA).
[SHR-96] SHRIRI A., ETMAN. M., DABOSI F. Electro and physicochemical study of
corrosion inhibition of carbon steel in 3% NaCl by alkylimidazoles.
Electrochimica Acta, 1996, vol. 41, pp. 429-437.
[SIN-02] SINICKI C. Protection contre la corrosion humide, chapitre IX. Lyon : INSA de
Lyon, CAST, 2002, p.12.
[SUZ-96] SUZUKI T., NISHIHARA H., ARAMAKI K. The synergistic inhibition effect of
octylmercaptopropionate and 8-quinolinol on the corrosion of iron in an aerated
0.5 M Na2SO4 solution. Corrosion Science, 1996, vol. 38, pp. 1223-1234.
- 144 -
Références bibliographiques
[T]
[TAK-04] TAKENOUTI H. Evaluation de la protection contre la corrosion assurée par des
revêtements organiques. In : B. Normand, N. Pébère, C. Richard, M. Wery.
Prévention et lutte contre la corrosion : une approche scientifique et technique.
Lausanne : Presses polytechniques et universitaires romandes, 2004, pp. 123-145.
ISBN 2-88074-543-8
[TAN-96] TAN Y.J., BAILEY S., KINSELLA B. The monitoring of the formation and
destruction of corrosion inhibitor films using electrochemical noise analysis
(ENA). Corrosion Science, 1996, vol. 38, pp. 1681-1695.
[TEL-00] TELEGDI J., SHABAN A., KALMAN E. EQCM study of corrosion and iron
corrosion inhibition in presence of organic inhibitors and biocides. Electrochimica
Acta, 2000, vol. 45, pp. 3639-3647.
[TO-97] TO X.H., PEBERE N., PELAPRAT N., BOUTEVIN B., HERVAUD Y. A
corrosion-protective film formed on a carbon steel by an organic phosphonate.
Corrosion Science, 1997, vol. 39, pp. 1925-1934.
[TSU-00] TSUJI N., NOZAWA K. Ultrathin protective films prepared by modification of an
N,N-dimethylalkylamine monolayer with chlorosilanes for preventing corrosion of
iron. Corrosion Science, 2000, vol. 42, pp. 1523-1538.
[TUR-85] TURGOOSE S. In : Proceedings of the 6th European Symposium of Corrosion
Inhibitors, Ann. Univ. Ferrara (ITALIE), 1985, p. 1041.
[U]
[UNC-05] UNCTAD : United Nationals Conference on Trade and Development. [en ligne].
Disponible sur : http://www.unctad.org/ (consulté en janvier 2005).
- 145 -
Références bibliographiques
[V]
[VEL-90] S. Veleda, A. Popova, S. Raicheva. In : Proceedings of the 7th European
Symposium of Corrosion Inhibitors, Ann. Univ. Ferrara (ITALIE), 1990, p. 149.
[W]
[WAL-48] WALDRIP H.E. Present Day Aspects of Condensate Well Corrosion. Corrosion,
1948, vol. 4, pp. 611-618.
[WEI-71] WEISSTUCH A., CARTER D. A., NATHAN C. C. Chelation compounds as
cooling waters corrosion inhibitors. Material Performance, 1971, vol. 10, pp. 1117.
[WEL-97] WELLE A., LIAO J.D., KAISER K., GRUNZE M., MADER U., BLANK N.
Interactions of N-N’-dimethylaminoethanol with steel surfaces in alkaline and
chlorine containing solutions. Applied Surface Science, 1997, vol. 119, pp 185190.
[Y]
[YAM-92] YAMAMOTO Y., NISHIHARA H., ARAMAKI K. Inhibition mechanism of
sodium 3-n-Octylmercaptopropionate for iron corrosion in 0.5 M NaCl solution.
Corrosion, 1992, vol. 48, pp. 641-648.
[Z]
[ZEC-76] ZECHER D. C. Corrosion inhibition by surface-active chelants. Material
Performance, 1976, vol. 15, pp. 33-38.
- 146 -