Study of the performance of carbon steel AISI 1010 under the effect of epoxy/LDH-Zn-Al-NO<sub>2-</sub> coating barrier as corrosion inhibitor by electrochemical impedance spectroscopy

Seniski, Anelize; Oliveira, Tassiane Apolinário de; Portella, Kleber Franke; Carrera, Gilberto; Bragança, Mariana d’Orey Gaivão Portella

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Artigos • Matéria (Rio J.) 25 (2) • 2020 • https://doi.org/10.1590/S1517-707620200002.1060 copy

Study of the performance of carbon steel AISI 1010 under the effect of epoxy/LDH-Zn-Al-NO_2- coating barrier as corrosion inhibitor by electrochemical impedance spectroscopy

Authorship SCIMAGO INSTITUTIONS RANKINGS

ABSTRACT

To extend the useful life of power distribution and transmission lines metal artifacts, a hydrotalcite like nanomaterial has been studied because of its function as a nanocontainer for corrosion inhibition. The layered double hydroxides (LDH) are called hydrotalcite like material, wich are anion exchangers. Structurally, they consist of metal hydroxides with mixed positive charges separated by anionic and water molecules. Upon aggressive exposures, they can exchange ions with the environment, releasing a corrosion inhibition agent. In this research, three materials, (carbon steel 1010, carbon steel 1010 with epoxy resin and carbon steel 1010 with epoxy resin and the addition of 5% of LDH Zn-Al- NO₂^-) was analyzed by electrochemical impedance spectroscopy (EIS). The LDH was characterized by X-ray diffraction (XRD) and with Fourier transform infrared spectroscopy (FTIR). The results obtained evidenced the application of Zn-Al- NO₂^- in the elements of the power distribution and transmisson lines, since they did confered greater corrosion resistance to exposure and possible penetration of aggressive ions in the epoxy matrix (coating).

Keywords
Layered Double Hydroxides; Nitrite; Electrochemical Impedance Spectroscopy

Amostras	Tempo	R_s (Ω.cm²)	R_f (Ω.cm²)	R_ct (Ω.cm²)	CPE_f (F/ cm²)	CPE_dl (F/ cm²)	Erro
Aço carbono 1010	Inicial	8,3424	--	3,56x10⁴	--	8,30 x10^-4	0,0194
	24 h	11,3872	--	1,09x10⁴	--	1,11 x10^-4	0,084
	160 h	10,472	--	1151,04	--	1,03 x10^-3	0,479
Revestimento Resina	Inicial	9,45x10³	6,18 x10⁷	1,95x10⁸	9,60 x10^-9	1,02 x10^-9	0,017
	24 h	3,36 x10³	2,32 x10⁷	1,81x10⁸	3,79x10^-8	1,57 x10^-7	0,271
	160 h	3,43 x10³	7,53 x10⁴	6,71x10⁵	2,31x10^-7	9,43 x10^-7	0,093
Revestimento HDL-NO₂^-	Inicial	2,43 x10³	4,28 x10⁸	2,82x10⁹	2,39x10^-10	2,64 x10^-10	0,006
	24 h	4,00 x10³	8,20 x10⁷	2,24x10⁸	5,27x10^-10	3,41 x10^-8	0,047
	160 h	3,94 x10³	5,42 x10⁷	1,61x10⁸	6,65x10^-10	3,30 x10^-8	0,028

Amostras	Resina epóxi	Revestimento HDL-NO₂^-
η_início (%)	99,98	99,99
η_24h (%)	99,98	99,98
η_160h (%)	94,96	99,98

Laboratório de Hidrogênio, Coppe - Universidade Federal do Rio de Janeiro, em cooperação com a Associação Brasileira do Hidrogênio, ABH2 Av. Moniz Aragão, 207, 21941-594, Rio de Janeiro, RJ, Brasil, Tel: +55 (21) 3938-8791 - Rio de Janeiro - RJ - Brazil
E-mail: revmateria@gmail.com

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[1] Autor Responsável: Anelize Seniski

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Study of the performance of carbon steel AISI 1010 under the effect of epoxy/LDH-Zn-Al-NO2- coating barrier as corrosion inhibitor by electrochemical impedance spectroscopy

ABSTRACT

Study of the performance of carbon steel AISI 1010 under the effect of epoxy/LDH-Zn-Al-NO_2- coating barrier as corrosion inhibitor by electrochemical impedance spectroscopy