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Journal of Coatings Technology and Research

Erschienen in:

01.03.2015

Tungstate and vanadate-doped polypyrrole/aluminum flake composite coatings for the corrosion protection of aluminum 2024-T3

verfasst von: Niteen Jadhav, Mark B. Jensen, Victoria Gelling

Erschienen in: Journal of Coatings Technology and Research | Ausgabe 2/2015

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Abstract

Polypyrrole (PPy) doped with either tungstate or vanadate as counter anions was synthesized by chemical oxidative polymerization on the surface of aluminum (Al) flakes. This resulted in the deposition of PPy on the surface of the Al flakes leading to the formation of doped PPy/Al flake composite pigments. These composite pigments were characterized by Fourier transform infrared spectroscopy, scanning electron microscopy, energy dispersive spectroscopy, conductive-atomic force microscopy, four-point probe conductivity, and X-ray photoelectron spectroscopy. Furthermore, these composites were incorporated in an epoxy-amide binder system in order to formulate a primer for an aluminum 2024-T3 substrate. The coatings were exposed to the Prohesion test conditions and corrosion resistance properties were monitored by electrochemical impedance spectroscopy, DC polarization, galvanic coupling, and scanning electrochemical microscopy measurements. It was found that the doped PPy/Al flake coatings provided sacrificial protection to the underlying aluminum 2024-T3 substrate. Additionally, the release of dopants from PPy backbone resulted in the passivation in the defect areas improving the corrosion protection ability.

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Ahmad, Z, Principles of Corrosion Engineering and Corrosion Control. Elsevier Science, Oxford, 2006

Jones, DA, Principles and Prevention of Corrosion. Prentice Hall, New York, 1996

Revie, RW, Uhlig’s Corrosion Handbook. Wiley, New York, 2011CrossRef

Skotheim, TA, Reynolds, JR, Conjugated Polymers: Processing and Applications. CRC Press, Boca Raton, 2007

Cohen, SM, “Review: Replacements for Chromium Pretreatments on Aluminum.” Corrosion, 51 (1) 71–78 (1995)CrossRef

Cohen, MD, Kargacin, B, Klein, CB, Costa, M, “Mechanisms of Chromium Carcinogenicity and Toxicity.” Crit. Rev. Toxicol., 23 (3) 255–281 (1993)CrossRef

Macdiarmid, AG, Chiang, JC, Richter, AF, Epstein, AJ, “Polyaniline: A New Concept in Conducting Polymers.” Synth. Met., 18 (1–3) 285–290 (1987)CrossRef

Heinze, J, “Electronically Conducting Polymers Electrochemistry IV.” In: Steckhan, E (ed.) Topics in Current Chemistry, pp. 1–47. Springer, Berlin, 1990

Stenger-Smith, JD, “Intrinsically Electrically Conducting Polymers. Synthesis, Characterization, and Their Applications.” Prog. Polym. Sci., 23 (1) 57–79 (1998)CrossRef

10.

Inzelt, G, Conducting Polymers: A New Era in Electrochemistry. Springer, Berlin, 2012CrossRef

11.

Hosseini, MG, Raghibi-Boroujeni, M, Ahadzadeh, I, Najjar, R, Seyed Dorraji, MS, “Effect of Polypyrrole–Montmorillonite Nanocomposites Powder Addition on Corrosion Performance of Epoxy Coatings on Al 5000.” Prog. Org. Coat., 66 (3) 321–327 (2009)CrossRef

12.

Castagno, K, Azambuja, D, Dalmoro, V, “Polypyrrole Electropolymerized on Aluminum Alloy 1100 Doped with Oxalate and Tungstate Anions.” J. Appl. Electrochem., 39 (1) 93–100 (2009)CrossRef

13.

Hosseini, MG, Sabouri, M, Shahrabi, T, “Comparison of the Corrosion Protection of Mild Steel by Polypyrrole–Phosphate and Polypyrrole–Tungstenate Coatings.” J. Appl. Polym. Sci., 110 (5) 2733–2741 (2008)CrossRef

14.

Bidan, G, “Electroconducting Conjugated Polymers: New Sensitive Matrices to Build Up Chemical or Electrochemical Sensors. A Review.” Sens. Actuators B, 6 (1–3) 45–56 (1992)CrossRef

15.

Inzelt, G, Pineri, M, Schultze, JW, Vorotyntsev, MA, “Electron and Proton Conducting Polymers: Recent Developments and Prospects.” Electrochim. Acta, 45 (15–16) 2403–2421 (2000)CrossRef

16.

Otero, TF, Angulo, E, Rodríguez, J, Santamaría, C, “Electrochemomechanical Properties from a Bilayer: Polypyrrole/Non-conducting and Flexible Material—Artificial Muscle.” J. Electroanal. Chem., 341 (1–2) 369–375 (1992)CrossRef

17.

Rudge, A, Davey, J, Raistrick, I, Gottesfeld, S, Ferraris, JP, “Conducting Polymers as Active Materials in Electrochemical Capacitors.” J. Power Sources, 47 (1–2) 89–107 (1994)CrossRef

18.

Scrosati, B, “Conducting Polymers: Advanced Materials for New Design, Rechargeable Lithium Batteries.” Polym. Int., 47 (1) 50–55 (1998)CrossRef

19.

Cai, Z, Geng, M, Tang, Z, “Novel Battery Using Conducting Polymers: Polyindole and Polyaniline as Active Materials.” J. Mater. Sci., 39 (12) 4001–4003 (2004)CrossRef

20.

Braun, D, Heeger, AJ, “Electroluminescence from Light-Emitting Diodes Fabricated from Conducting Polymers.” Thin Solid Films, 216 (1) 96–98 (1992)CrossRef

21.

Dai, L, Winkler, B, Dong, L, Tong, L, Mau, AWH, “Conjugated Polymers for Light-Emitting Applications.” Adv. Mater., 13 (12–13) 915–925 (2001)CrossRef

22.

Lira, LM, Córdoba de Torresi, SI, “Conducting Polymer–Hydrogel Composites for Electrochemical Release Devices: Synthesis and Characterization of Semi-interpenetrating Polyaniline–Polyacrylamide Networks.” Electrochem. Commun., 7 (7) 717–723 (2005)CrossRef

23.

Miller, LL, “Electrochemically Controlled Release of Drug Ions from Conducting Polymers.” Mol. Cryst. Liquid Cryst., 160 (1) 297–301 (1988)

24.

Saito, Y, Azechi, T, Kitamura, T, Hasegawa, Y, Wada, Y, Yanagida, S, “Photo-Sensitizing Ruthenium Complexes for Solid State Dye Solar Cells in Combination with Conducting Polymers as Hole Conductors.” Coord. Chem. Rev., 248 (13–14) 1469–1478 (2004)CrossRef

25.

Wang, Y, Jing, X, “Intrinsically Conducting Polymers for Electromagnetic Interference Shielding.” Polym. Adv. Technol., 16 (4) 344–351 (2005)CrossRef

26.

Lakshmi, K, John, H, Mathew, KT, Joseph, R, George, KE, “Microwave Absorption, Reflection and EMI Shielding of PU–PANI Composite.” Acta Mater., 57 (2) 371–375 (2009)CrossRef

27.

Sitaram, S, Stoffer, J, O’Keefe, T, “Application of Conducting Polymers in Corrosion Protection.” J. Coat. Technol., 69 (866) 65–69 (1997)CrossRef

28.

Tallman, D, Spinks, G, Dominis, A, Wallace, G, “Electroactive Conducting Polymers for Corrosion Control.” J. Solid State Electrochem., 6 (2) 73–84 (2002)CrossRef

29.

Spinks, G, Dominis, A, Wallace, G, Tallman, D, “Electroactive Conducting Polymers for Corrosion Control.” J. Solid State Electrochem., 6 (2) 85–100 (2002)CrossRef

30.

Ahmad, N, MacDiarmid, AG, “Inhibition of Corrosion of Steels with the Exploitation of Conducting Polymers.” Synth. Met., 78 (2) 103–110 (1996)CrossRef

31.

Breslin, CB, Fenelon, AM, Conroy, KG, “Surface Engineering: Corrosion Protection Using Conducting Polymers.” Mater. Des., 26 (3) 233–237 (2005)CrossRef

32.

Rammelt, U, Nguyen, PT, Plieth, W, “Corrosion Protection by Ultrathin Films of Conducting Polymers.” Electrochim. Acta, 48 (9) 1257–1262 (2003)CrossRef

33.

Tan, CK, Blackwood, DJ, “Corrosion Protection by Multilayered Conducting Polymer Coatings.” Corros. Sci., 45 (3) 545–557 (2003)CrossRef

34.

Annibaldi, V, Rooney, AD, Breslin, CB, “Corrosion Protection of Copper Using Polypyrrole Electrosynthesised from a Salicylate Solution.” Corros. Sci., 59 179–185 (2012)CrossRef

35.

Gonçalves, GS, Baldissera, AF, Rodrigues, LF, Jr, Martini, EMA, Ferreira, CA, “Alkyd Coatings Containing Polyanilines for Corrosion Protection of Mild Steel.” Synth. Met., 161 (3–4) 313–323 (2011)CrossRef

36.

Palraj, S, Selvaraj, M, Vidhya, M, Rajagopal, G, “Synthesis and Characterization of Epoxy–Silicone–Polythiophene Interpenetrating Polymer Network for Corrosion Protection of Steel.” Prog. Org. Coat., 75 (4) 356–363 (2012)CrossRef

37.

Deshpande, P, Jadhav, N, Gelling, V, Sazou, D, “Conducting Polymers for Corrosion Protection: A Review.” J. Coat. Technol. Res., 11 (4) 473–494 (2014)CrossRef

38.

Lim, CT, Goh, JCH, 13th International Conference on Biomedical Engineering: ICBME 2008, December, 3–6, 2008, Singapore. Springer London, Limited, 2009

39.

Yan, M, Vetter, CA, Gelling, VJ, “Electrochemical Investigations of Polypyrrole Aluminum Flake Coupling.” Electrochim. Acta, 55 (20) 5576–5583 (2010)CrossRef

40.

Trueba, M, Trasatti, SP, “Characterization and Corrosion Performance of Poly(pyrrole-siloxane) Films on Commercial Al Alloys.” J. Appl. Electrochem., 39 (11) 2061–2072 (2009)CrossRef

41.

Ashraf, SA, Chen, F, Too, CO, Wallace, GG, “Bulk Electropolymerization of Alkylpyrroles.” Polymer, 37 (13) 2811–2819 (1996)CrossRef

42.

Gelling, VJ, Wiest, MM, Tallman, DE, Bierwagen, GP, Wallace, GG, “Electroactive-Conducting Polymers for Corrosion Control: 4. Studies of Poly(3-octyl pyrrole) and Poly(3-octadecyl pyrrole) on Aluminum 2024-T3 Alloy.” Prog. Org. Coat., 43 (1–3) 149–157 (2001)CrossRef

43.

Peres, RCD, Pernaut, JM, De Paoli, M-A, “Properties of Poly(pyrrole) Films Electrochemically Synthesized in the Presence of Surfactants.” Synth. Met., 28 (1–2) 59–64 (1989)CrossRef

44.

Song, M-K, Kim, Y-T, Kim, B-S, Kim, J, Char, K, Rhee, H-W, “Synthesis and Characterization of Soluble Polypyrrole Doped with Alkylbenzenesulfonic Acids.” Synth. Met., 141 (3) 315–319 (2004)CrossRef

45.

Qi, X, Vetter, C, Harper, AC, Gelling, VJ, “Electrochemical Investigations into Polypyrrole/Aluminum Flake Pigmented Coatings.” Prog. Org. Coat., 63 (3) 345–351 (2008)CrossRef

46.

Jadhav, N, Vetter, CA, Gelling, VJ, “The Effect of Polymer Morphology on the Performance of a Corrosion Inhibiting Polypyrrole/Aluminum Flake Composite Pigment.” Electrochim. Acta, 102 28–43 (2013)CrossRef

47.

Jadhav, N, Gelling, VJ, “Synthesis and Characterization of Micaceous Iron Oxide/Polypyrrole Composite Pigments and Their Application for Corrosion Protection of Cold Rolled Steel.” Corrosion, 70 464–474 (2013)CrossRef

48.

Jadhav, N, Vetter, CA, Gelling, VJ, “Characterization and Electrochemical Investigations of Polypyrrole/Aluminum Flake Composite Pigments on AA 2024-T3 Substrate.” ECS Trans., 41 (15) 75–89 (2012)

49.

Sabouri, M, Shahrabi, T, Farid, HR, Hosseini, MG, “Polypyrrole and Polypyrrole–Tungstate Electropolymerization Coatings on Carbon Steel and Evaluating Their Corrosion Protection Performance Via Electrochemical Impedance Spectroscopy.” Prog. Org. Coat., 64 (4) 429–434 (2009)CrossRef

50.

Sabouri, M, Shahrabi, T, Hosseini, MG, “Improving Corrosion Protection Performance of Polypyrrole Coating by Tungstate Ion Dopants.” Russ. J. Electrochem., 43 (12) 1390–1397 (2007)CrossRef

51.

Iannuzzi, M, Frankel, GS, “Mechanisms of Corrosion Inhibition of AA2024-T3 by Vanadates.” Corros. Sci., 49 (5) 2371–2391 (2007)CrossRef

52.

Mahmoudian, MR, Basirun, WJ, Alias, Y, “Synthesis and Characterization of Poly(N-methylpyrrole)/TiO₂ Composites on Steel.” Appl. Surf. Sci., 257 (8) 3702–3708 (2011)CrossRef

53.

Akbarinezhad, E, Ebrahimi, M, Sharif, F, Attar, MM, Faridi, HR, “Synthesis and Evaluating Corrosion Protection Effects of Emeraldine Base PAni/Clay Nanocomposite as a Barrier Pigment in Zinc-Rich Ethyl Silicate Primer.” Prog. Org. Coat., 70 (1) 39–44 (2011)CrossRef

54.

Hosseini, MG, Jafari, M, Najjar, R, “Effect of Polyaniline–Montmorillonite Nanocomposite Powders Addition on Corrosion Performance of Epoxy Coatings on Al 5000.” Surf. Coat. Technol., 206 (2–3) 280–286 (2011)CrossRef

55.

Hosseini, MG, Bagheri, R, Najjar, R, “Electropolymerization of Polypyrrole and Polypyrrole–ZnO Nanocomposites on Mild Steel and Its Corrosion Protection Performance.” J. Appl. Polym. Sci., 121 (6) 3159–3166 (2011)CrossRef

56.

Ioniţă, M, Prună, A, “Polypyrrole/Carbon Nanotube Composites: Molecular Modeling and Experimental Investigation as Anti-corrosive Coating.” Prog. Org. Coat., 72 (4) 647–652 (2011)CrossRef

57.

Yan, M, Tallman, DE, Bierwagen, GP, “Role of Oxygen in the Galvanic Interaction Between Polypyrrole and Aluminum Alloy.” Electrochim. Acta, 54 (2) 220–227 (2008)CrossRef

58.

Rizzi, M, Trueba, M, Trasatti, SP, “Polypyrrole Films on Al Alloys: The Role of Structural Changes on Protection Performance.” Synth. Met., 161 (1–2) 23–31 (2011)CrossRef

59.

Nguyen Thi Le, H, Garcia, B, Deslouis, C, Le Xuan, Q, “Corrosion Protection and Conducting Polymers: Polypyrrole Films on Iron.” Electrochim. Acta, 46 (26–27) 4259–4272 (2001)CrossRef

60.

Lu, W-K, Elsenbaumer, RL, Wessling, B, “Corrosion Protection of Mild Steel by Coatings Containing Polyaniline.” Synth. Met., 71 (1–3) 2163–2166 (1995)CrossRef

61.

Tian, B, Zerbi, G, “Lattice-Dynamics and Vibrational-Spectra of Polypyrrole.” J. Chem. Phys., 92 (6) 3886–3891 (1990)CrossRef

62.

Kasisomayajula, SV, Qi, XN, Vetter, C, Croes, K, Pavlacky, D, Gelling, VJ, “A Structural and Morphological Comparative Study Between Chemically Synthesized and Photopolymerized Poly(pyrrole).” J. Coat. Technol. Res., 7 (2) 145–158 (2010)CrossRef

63.

Liang, W, Lei, J, Martin, CR, “Effect of Synthesis Temperature on the Structure, Doping Level and Charge-Transport Properties of Polypyrrole.” Synth. Met., 52 (2) 227–239 (1992)CrossRef

64.

Omastová, M, Trchová, M, Kovářová, J, Stejskal, J, “Synthesis and Structural Study of Polypyrroles Prepared in the Presence of Surfactants.” Synth. Met., 138 (3) 447–455 (2003)CrossRef

65.

Tian, B, Zerbi, G, “Lattice Dynamics and Vibrational Spectra of Pristine and Doped Polypyrrole: Effective Conjugation Coordinate.” J. Chem. Phys., 92 (6) 3892–3898 (1990)CrossRef

66.

Saravanan, C, Shekhar, RC, Palaniappan, S, “Synthesis of Polypyrrole Using Benzoyl Peroxide as a Novel Oxidizing Agent.” Macromol. Chem. Phys., 207 (3) 342–348 (2006)CrossRef

67.

Socrates, G, Infrared and Raman Characteristic Group Frequencies: Tables and Charts. Wiley, New York, 2004

68.

Kaynak, A, “Effect of Synthesis Parameters on the Surface Morphology of Conducting Polypyrrole Films.” Mater. Res. Bull., 32 (3) 271–285 (1997)CrossRef

69.

Maddison, DS, Unsworth, J, “Optimization of Synthesis Conditions of Polypyrrole from Aqueous Solutions.” Synth. Met., 30 (1) 47–55 (1989)CrossRef

70.

Unsworth, J, Innis, PC, Lunn, BA, Jin, Z, Norton, GP, “The Influence of Electrolyte pH on the Surface Morphology of Polypyrrole.” Synth. Met., 53 (1) 59–69 (1992)CrossRef

71.

Goel, S, Mazumdar, NA, Gupta, A, “Synthesis and Characterization of Polypyrrole Nanofibers with Different Dopants.” Polym. Adv. Technol., 21 (3) 205–210 (2010)

72.

Warren, LF, Walker, JA, Anderson, DP, Rhodes, CG, Buckley, LJ, “A Study of Conducting Polymer Morphology: The Effect of Dopant Anions upon Order.” J. Electrochem. Soc., 136 (8) 2286–2295 (1989)CrossRef

73.

Yang, C, Liu, P, “Water-Dispersed Polypyrrole Nanoparticles Via Chemical Oxidative Polymerization in the Presence of a Functional Polyanion.” React. Funct. Polym., 70 (10) 726–731 (2010)CrossRef

74.

Díez, I, Tauer, K, Schulz, B, “Unusual Polymer Dispersions—Polypyrrole Suspensions Made of Rings, Frames, and Platelets.” Colloid Polym. Sci., 284 (12) 1431–1442 (2006)CrossRef

75.

Lu, Y, Pich, A, Adler, H-JP, “Synthesis and Characterization of Polypyrrole Dispersions Prepared with Different Dopants.” Macromol. Symp., 210 (1) 411–417 (2004)CrossRef

76.

Brédas, JL, Scott, JC, Yakushi, K, Street, GB, “Polarons and Bipolarons in Polypyrrole: Evolution of the Band Structure and Optical Spectrum upon Doing.” Phys. Rev. B, 30 (2) 1023–1025 (1984)CrossRef

77.

Bredas, JL, Street, GB, “Polarons, Bipolarons, and Solitons in Conducting Polymers.” Acc. Chem. Res., 18 (10) 309–315 (1985)CrossRef

78.

Kuwabata, S, Nakamura, J, Yoneyama, H, “The Effect of Basicity of Dopant Anions on the Conductivity of Polypyrrole Films.” J. Chem. Soc. Chem. Commun., 0 (12) 779–780 (1988)CrossRef

79.

Shakoor, A, Rizvi, TZ, “Synthesis and Characterization of Polypyrrole Dodecylbenzenesulfonate-Titanium Dioxide Nanocomposites.” J. Appl. Polym. Sci., 117 (2) 970–973 (2010)CrossRef

80.

Jianguo, L, Gaoping, G, Chuanwei, Y, “EIS Study of Corrosion Behaviour of Organic Coating/Dacromet Composite Systems.” Electrochim. Acta, 50 (16–17) 3320–3332 (2005)CrossRef

81.

Mansfeld, F, “Use of Electrochemical Impedance Spectroscopy for the Study of Corrosion Protection by Polymer Coatings.” J. Appl. Electrochem., 25 (3) 187–202 (1995)CrossRef

82.

Truong, VT, Lai, PK, Moore, BT, Muscat, RF, Russo, MS, “Corrosion Protection of Magnesium by Electroactive Polypyrrole/Paint Coatings.” Synth. Met., 110 (1) 7–15 (2000)CrossRef

83.

Iroh, JO, Su, W, “Corrosion Performance of Polypyrrole Coating Applied to Low Carbon Steel by an Electrochemical Process.” Electrochim. Acta, 46 (1) 15–24 (2000)CrossRef

84.

Rohwerder, M, Michalik, A, “Conducting Polymers for Corrosion Protection: What Makes the Difference Between Failure and Success?” Electrochim. Acta, 53 (3) 1300–1313 (2007)CrossRef

85.

Yan, MC, Tallman, DE, Rasmussen, SC, Bierwagen, GP, “Corrosion Control Coatings for Aluminum Alloys Based on Neutral and n-Doped Conjugated Polymers.” J. Electrochem. Soc., 156 (10) C360–C366 (2009)CrossRef

86.

Kinlen, PJ, Menon, V, Ding, Y, “A Mechanistic Investigation of Polyaniline Corrosion Protection Using the Scanning Reference Electrode Technique.” J. Electrochem. Soc., 146 (10) 3690–3695 (1999)CrossRef

87.

Kendig, M, Hon, M, Warren, L, “‘Smart’ Corrosion Inhibiting Coatings.” Prog. Org. Coat., 47 (3–4) 183–189 (2003)CrossRef

88.

Tallman, DE, Levine, KL, Siripirom, C, Gelling, VG, Bierwagen, GP, Croll, SG, “Nanocomposite of Polypyrrole and Alumina Nanoparticles as a Coating Filler for the Corrosion Protection of Aluminium Alloy 2024-T3.” Appl. Surf. Sci., 254 (17) 5452–5459 (2008)CrossRef

89.

Jensen, M, Tallman, D, “A LabVIEW-Based Virtual Instrument for Simulation and Analysis of SECM Approach Curves.” J. Solid State Electrochem., 17 (12) 2999–3003 (2013)CrossRef

90.

Jensen, M, Peterson, M, Jadhav, N, Gelling, VJ, “SECM Investigation of Corrosion Inhibition by Tungstate- and Vanadate-Doped Polypyrrole/Aluminum Flake Composite Coatings on AA2024-T3.” Prog. Org. Coat., 77 (12) 2116–2122 (2014)

Titel: Tungstate and vanadate-doped polypyrrole/aluminum flake composite coatings for the corrosion protection of aluminum 2024-T3
verfasst von: Niteen Jadhav
Mark B. Jensen
Victoria Gelling
Publikationsdatum: 01.03.2015
Verlag: Springer US
Erschienen in: Journal of Coatings Technology and Research / Ausgabe 2/2015
Print ISSN: 1547-0091
Elektronische ISSN: 1935-3804
DOI: https://doi.org/10.1007/s11998-014-9633-4

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