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Journal of Coatings Technology and Research

Published in:

08-06-2017

Effective incorporation of ZnO nanoparticles by miniemulsion polymerization in waterborne binders for steel corrosion protection

Authors: Stefano Chimenti, Jesús Manuel Vega, Miren Aguirre, Eva García-Lecina, José Antonio Díez, Hans-Jurgen Grande, María Paulis, Jose Ramon Leiza

Published in: Journal of Coatings Technology and Research | Issue 4/2017

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Abstract

A nanohybrid waterborne binder was synthesized by miniemulsion polymerization with the incorporation of ZnO nanoparticles in order to increase the corrosion protection capability. This system was compared to a neat waterborne binder and to a physical blend of the binder with an aqueous ZnO nanoparticles dispersion. The hybrid dispersion was characterized by SEM and TEM, while the corrosion behavior of these latexes was investigated by electrochemical measurements (open circuit potential and electrochemical impedance spectroscopy in 3.5 wt% NaCl solution), evaluating the effect of the incorporation of these nanoparticles into the polymeric matrix. The incorporation of ZnO nanoparticles by blending showed similar behavior to the neat coating despite flash rust reduction on the metal surface. In contrast, the hybrid binder prepared by miniemulsion polymerization has shown the best performance according to the values of pore resistance (R _i) and coating capacitance (C _c). In general, this study shows how useful can be the miniemulsion polymerization methodology to design hybrid coating formulations, obtaining homogenous distribution of ZnO nanoparticles within the film. Indeed, a heterogeneous distribution can hinder the effectiveness and the corrosion protection capabilities of promising nanoparticles.

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Kendig, M, Mills, DJ, “An Historical Perspective on the Corrosion Protection by Paints.” Prog. Org. Coat., 102 (Part A) 53–59 (2017)CrossRef

Alicja, S, Michael, BB, “Development of Self-Healing Coatings for Corrosion Protection on Metallic Structures.” Smart Mater. Struct., 25 (8) 084013 (2016)CrossRef

Cohen, N, Dotan, A, Dodiuk, H, Kenig, S, “Superhydrophobic Coatings and Their Durability.” Mater. Manuf. Processes, 31 (9) 1143–1155 (2016)CrossRef

Machotová, J, Šňupárek, J, Prokůpek, L, Rychlý, T, Vlasák, P, “Effect of Functionalised Core–Shell Microgels Prepared by Emulsion Polymerisation on Acrylic Coatings Properties.” Prog. Org. Coat., 63 (2) 175–181 (2008)CrossRef

Kang, K, Kan, C, Du, Y, Liu, D, “Synthesis and Properties of Soap-Free Poly(Methyl Methacrylate-Ethyl Acrylate-Methacrylic Acid) Latex Particles Prepared by Seeded Emulsion Polymerization.” Eur. Polym. J., 41 (3) 439–445 (2005)CrossRef

Roche, V, Vacandio, F, Bertin, D, Gigmes, D, Eyraud, M, “Block Copolymers for Corrosion Protection of Aluminium.” Comptes Rendus Chimie, 11 (9) 1055–1062 (2008)CrossRef

Whitten, MC, Lin, C-T, “An In Situ Phosphatizing Coating on 2024 T3 Aluminum Coupons.” Prog. Org. Coat., 38 (3–4) 151–162 (2000)CrossRef

Alam, J, Riaz, U, Ashraf, SM, Ahmad, S, “Corrosion-Protective Performance of Nano Polyaniline/Ferrite Dispersed Alkyd Coatings.” J. Coat. Technol. Res., 5 (1) 123–128 (2008)CrossRef

Montemor, MF, Ferreira, MGS, “Analytical Characterization of Silane Films Modified with Cerium Activated Nanoparticles and its Relation with the Corrosion Protection of Galvanised Steel Substrates.” Prog. Org. Coat., 63 (3) 330–337 (2008)CrossRef

10.

Ji Yeon, S, Mijeong, H, “Multi-Functional Hybrid Coatings Containing Silica Nanoparticles and Anti-Corrosive Acrylate Monomer for Scratch and Corrosion Resistance.” Nanotechnology, 22 (2) 025601 (2011)CrossRef

11.

El Saeed, AM, El-Fattah, MA, Azzam, AM, “Synthesis of ZnO Nanoparticles and Studying its Influence on the Antimicrobial, Anticorrosion and Mechanical Behavior of Polyurethane Composite for Surface Coating.” Dyes Pigments, 121 282–289 (2015)CrossRef

12.

Dhoke, SK, Khanna, AS, “Study on Electrochemical Behavior of Nano-ZnO Modified Alkyd-Based Waterborne Coatings.” J. Appl. Polym. Sci., 113 (4) 2232–2237 (2009)CrossRef

13.

Dhoke, SK, Khanna, AS, Sinha, TJM, “Effect of Nano-ZnO Particles on the Corrosion Behavior of Alkyd-Based Waterborne Coatings.” Prog. Org. Coat., 64 (4) 371–382 (2009)CrossRef

14.

Shi, H, Liu, F, Han, E, Wei, Y, “Effects of Nano Pigments on the Corrosion Resistance of Alkyd Coating.” J. Mater. Sci. Technol., 23 (4) 551–558 (2007)

15.

Ramezanzadeh, B, Attar, MM, “Studying the Effects of Micro and Nano Sized ZnO Particles on the Corrosion Resistance and Deterioration Behavior of an Epoxy-Polyamide Coating on Hot-Dip Galvanized Steel.” Prog. Org. Coat., 71 (3) 314–328 (2011)CrossRef

16.

Álvarez, D, Collazo, A, Nóvoa, XR, Pérez, C, “Assessment of ZnO Nanoparticles as Anticorrosive Pigment in Hybrid Sol–Gel Films.” Prog. Org. Coat., 96 3–12 (2016)CrossRef

17.

Landfester, K, Weiss, CK, “Encapsulation by Miniemulsion Polymerization.” In: Caruso, F (ed.) Modern Techniques for Nano- and Microreactors/-Reactions, pp. 1–49. Springer, Berlin (2010)

18.

Asua, JM, “Miniemulsion Polymerization.” Prog. Polym. Sci., 27 (7) 1283–1346 (2002)CrossRef

19.

Mičušík, M, Bonnefond, A, Reyes, Y, Bogner, A, Chazeau, L, Plummer, C, Paulis, M, Leiza, JR, “Morphology of Polymer/Clay Latex Particles Synthesized by Miniemulsion Polymerization: Modeling and Experimental Results.” Macromol. React. Eng., 4 (6–7) 432–444 (2010)

20.

Liu, Y, Chen, X, Wang, R, Xin, JH, “Polymer Microspheres Stabilized by Titania Nanoparticles.” Mater. Lett., 60 (29–30) 3731–3734 (2006)CrossRef

21.

Zhang, S-W, Zhou, S-X, Weng, Y-M, Wu, L-M, “Synthesis of SiO₂/Polystyrene Nanocomposite Particles via Miniemulsion Polymerization.” Langmuir, 21 (6) 2124–2128 (2005)CrossRef

22.

Cauvin, S, Colver, PJ, Bon, SAF, “Pickering Stabilized Miniemulsion Polymerization: Preparation of Clay Armored Latexes.” Macromolecules, 38 (19) 7887–7889 (2005)CrossRef

23.

Tiarks, F, Landfester, K, Antonietti, M, “Silica Nanoparticles as Surfactants and Fillers for Latexes Made by Miniemulsion Polymerization.” Langmuir, 17 (19) 5775–5780 (2001)CrossRef

24.

Asua, JM, “Mapping the Morhology of Polymer-Inorganic Nanocomposites Synthesized by Miniemulsion Polymerization.” Macrom. Chem. Phys., 215 (5) 458–464 (2014)CrossRef

25.

Paulis, M, Leiza, JR, “Encapsulation with Miniemulsion Polymerization.” In: Kobayashi, S, Müllen, K (eds.) Encyclopedia of Polymeric Nanomaterials, pp. 1–10. Springer, Berlin (2014)

26.

Li, Y, Zhu, J, Gao, X, Yu, Z, “Preparation and Properties of Phosphate-Fluorocarbon Acrylate Anticorrosion Emulsion.” J. Macromol. Sci., Part A, 50 (2) 248–254 (2013)CrossRef

27.

Feliu, S, Galván, JC, Morcillo, M, “An Interpretation of Electrical Impedance Diagrams for Painted Galvanized Steel.” Prog. Org. Coat., 17 (2) 143–153 (1989)CrossRef

28.

Feliu, S, Galván, JC, Morcillo, M, “The Charge Transfer Reaction in Nyquist Diagrams of Painted Steel.” Corros. Sci., 30 (10) 989–998 (1990)CrossRef

29.

Galván, JC, Feliu, S, Morcillo, M, “Reproducibility of Electrical Impedance Data for a Metal/Paint System.” Prog. Org. Coat., 17 (2) 135–142 (1989)CrossRef

30.

Vega, JM, Granizo, N, de la Fuente, D, Simancas, J, Morcillo, M, “Corrosion Inhibition of Aluminum by Coatings Formulated with Al-Zn-Vanadate Hydrotalcite.” Prog. Org. Coat., 70 (4) 213–219 (2011)CrossRef

31.

Vega, JM, Granizo, N, Simancas, J, Fuente, D, Diaz, I, Morcillo, M, “Corrosion Inhibition of Aluminum by Organic Coatings Formulated with Calcium Exchange Silica Pigment.” J. Coat. Technol. Res., 10 (2) 209–217 (2013)CrossRef

32.

Hsu, CH, Mansfeld, F, “Technical Note: Concerning the Conversion of the Constant Phase Element Parameter Y0 into a Capacitance.” Corrosion, 57 (9) 747–748 (2001)CrossRef

33.

Brug, GJ, van den Eeden, ALG, Sluyters-Rehbach, M, Sluyters, JH, “The Analysis of Electrode Impedances Complicated by the Presence of a Constant Phase Element.” J. Electroanal. Chem. Interfacial Electrochem., 176 (1) 275–295 (1984)CrossRef

34.

Kalenda, P, “Anticorrosion Pigments and Derived Coating Systems on their Basis.” Dyes Pigments, 23 (3) 215–223 (1993)CrossRef

35.

Zhang, Y, Muhammed, M, “Critical Evaluation of Thermodynamics of Complex Formation of Metal Ions in Aqueous Solutions: VI. Hydrolysis and Hydroxo-Complexes of Zn2+ at 298.15 K.” Hydrometallurgy, 60 (3) 215–236 (2001)CrossRef

36.

Degen, A, Kosec, M, “Effect of pH and Impurities on the Surface Charge of Zinc Oxide in Aqueous Solution.” J. Eur. Ceram. Soc., 20 (6) 667–673 (2000)CrossRef

37.

Müller, B, Kläger, W, “The Effect of pH on the Corrosion Inhibition of Zinc Pigments by Phenol Derivatives.” Corros. Sci., 38 (11) 1869–1875 (1996)CrossRef

38.

Rostami, M, Rasouli, S, Ramezanzadeh, B, Askari, A, “Electrochemical Investigation of the Properties of Co Doped ZnO Nanoparticle as a Corrosion Inhibitive Pigment for Modifying Corrosion Resistance of the Epoxy Coating.” Corros. Sci., 88 387–399 (2014)CrossRef

39.

Ji, W-G, Hu, J-M, Liu, L, Zhang, J-Q, Cao, C-N, “Improving the Corrosion Performance of Epoxy Coatings by Chemical Modification with Silane Monomers.” Surf. Coat. Technol., 201 (8) 4789–4795 (2007)CrossRef

Title: Effective incorporation of ZnO nanoparticles by miniemulsion polymerization in waterborne binders for steel corrosion protection
Authors: Stefano Chimenti
Jesús Manuel Vega
Miren Aguirre
Eva García-Lecina
José Antonio Díez
Hans-Jurgen Grande
María Paulis
Jose Ramon Leiza
Publication date: 08-06-2017
Publisher: Springer US
Published in: Journal of Coatings Technology and Research / Issue 4/2017
Print ISSN: 1547-0091
Electronic ISSN: 1935-3804
DOI: https://doi.org/10.1007/s11998-017-9958-x

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