The Inhibitive Effect of Sebacate-Modified LDH on Concrete Steel Reinforcement Corrosion

Caballero, David; Cobos, Rubén Beltrán; Tavares, Fabiano; Cruz-Yusta, Manuel; Granados, Luis Sánchez; Moreno, Mercedes Sánchez; Pavlović, I.

doi:10.3390/chemengineering6050072

Cited by 6 publications

(6 citation statements)

References 34 publications

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“…In this context, a dicarboxylate compound such as disodium sebacate (SB, C 10 H 16 Na 2 O 4 ), shown in Figure 1, is a suitable candidate to consider. Amidst the pursuit of environmentally benign inhibitors, in recent studies, SB has emerged particularly due to its potential for intercalation in the burgeoning field of a novel type of ceramic-based drug delivery system, namely layered double hydroxides, offering promise as an efficient smart pigment [5,13,25,26]. Thanks to the ion exchange properties inherent in such a lamellar ceramic structure, molecules such as corrosion inhibitors, once intercalated during synthesis or in a subsequent treatment phase, can be accommodated within the structure and gradually released in the presence of other ions, typically chlorides [27].…”

Section: Introductionmentioning

confidence: 99%

Unlocking the Potential of Sebacate: Investigating Its Role in the Inhibition of Filiform Corrosion on Organic Coated Steel

Cristoforetti,

Rossi,

Deflorian

et al. 2024

Metals

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The study investigated the effect of sebacate as a corrosion inhibitor for acrylic-coated steel. Specifically, it examined its impact on mitigating a frequent case of paint delamination, known as filiform corrosion (FFC), through a chosen weathering test designed to stress the degradation of the produced samples. Sebacate was demonstrated to be an efficient organic molecule for enhancing the corrosion resistance of steel. This efficacy was evaluated through electrochemical characterization based on electrochemical impedance spectroscopy measurements and potentiodynamic polarization curves, including the application of an FFC susceptibility prediction methodology based on measurements obtained in FFC-simulated electrolytes. An inhibition efficiency of 98% was measured in near-neutral saline solutions compared to conditions lacking inhibitor presence. During FFC simulation, the primary effect observed was associated with a reduction in cathodic activity evolution. Furthermore, a significant reduction in corrosion creep evolution of 35% was found. These experimental findings aligned closely with the outcomes projected by the simulated investigations.

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Section: Introductionmentioning

confidence: 99%

Unlocking the Potential of Sebacate: Investigating Its Role in the Inhibition of Filiform Corrosion on Organic Coated Steel

Cristoforetti,

Rossi,

Deflorian

et al. 2024

Metals

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“…They found that LDHs have a positive impact on improving the carbonation resistance of cement paste. David Caballero et al [19] used an organically charged LDH with sebacate anions in the interlayer (LDH-S) as a water-repellent binder for mortar. They evaluate the waterproo ng e ciency and the corrosion inhibition ability of LDH-S in reinforced mortar samples.…”

Section: Introductionmentioning

confidence: 99%

Experimental investigation on the physco-mechanical and protective properties of concrete incorporating Layered double hydroxide (LDH)

Shohide

2024

Preprint

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The main perspective of this paper is enhancing the physico-mechanical and protective characteristics of concrete. This was achieved by incorporation Layered double hydroxide (LDH) in mix design of concrete with different doses. The concrete specimens were prepared with LDH percentages (0.5, 1.0, 1.5, and 2) % by the cement weight. After the characterization of LDH, the prepared concrete specimens were investigated as follows: the workability and density of the fresh concrete, effect of the addition of LDH on the compressive strength of hardened concrete were determined. The protective performance of concrete was evaluated by determining water absorption, contact angle, and chloride permeability. The obtained results detected that the physico-mechanical and protective performance of concrete are enhanced gradually by the addition of LDH up to 1.5%. After this percent, LDH is agglomerate and therefore unable to disperse uniformly.

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“…This Special Issue has received eighteen contributions, six review papers [1][2][3][4][5][6], and twelve research papers [7][8][9][10][11][12][13][14][15][16][17][18]. Most of the papers originated from groups who have previously worked with Prof. Rives, but five of the contributions came from authors who had not previously worked with him [6,7,13,17,18]. The materials most studied by Prof. Rives throughout his career were LDHs.…”

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confidence: 99%

“…The materials most studied by Prof. Rives throughout his career were LDHs. Therefore, it was not surprising that these materials were the basis of eight of the papers published in this Special Issue [2][3][4]10,11,[15][16][17]. Other materials included Ni-based catalysts [1], g-C 3 N 4 [5], mesoporous silica [6], MOFs [7], carbons [8,9], AlPO 4 [12], acid-modified clays [13], and porous aluminosilicates [17].…”

mentioning

confidence: 99%

“…Therefore, it was not surprising that these materials were the basis of eight of the papers published in this Special Issue [2][3][4]10,11,[15][16][17]. Other materials included Ni-based catalysts [1], g-C 3 N 4 [5], mesoporous silica [6], MOFs [7], carbons [8,9], AlPO 4 [12], acid-modified clays [13], and porous aluminosilicates [17]. Finally, one of the papers was devoted to the study of cultural heritage conservation [14].…”

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confidence: 99%

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A Themed Issue in Honor of Prof. Dr. Vicente Rives

Vicente,

Trujillano,

Labajos

2023

ChemEngineering

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The Inhibitive Effect of Sebacate-Modified LDH on Concrete Steel Reinforcement Corrosion

Cited by 6 publications

References 34 publications

Unlocking the Potential of Sebacate: Investigating Its Role in the Inhibition of Filiform Corrosion on Organic Coated Steel

Unlocking the Potential of Sebacate: Investigating Its Role in the Inhibition of Filiform Corrosion on Organic Coated Steel

Experimental investigation on the physco-mechanical and protective properties of concrete incorporating Layered double hydroxide (LDH)

A Themed Issue in Honor of Prof. Dr. Vicente Rives

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