Nanostructured Epoxy-Based Anticorrosive Coatings

Ramírez-Palma, María Teresa; Hernández‐Padrón, Genoveva; Gómez, José Mojica; Rojas-González, Fernando; Castaño, V. M.

doi:10.1142/s0218625x19502020

Cited by 7 publications

(4 citation statements)

References 9 publications

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“…In order to improve the physical and chemical properties of graphene materials, they are modified with various additives. Both heteroatoms, such as S [111], N [40,[112][113][114], P [115,116], F [117], and various compounds, such as tin oxides [118,119], silicon oxides [120], and others [121], can serve as doping materials. These additives are introduced into the graphite structure by various chemical and physical methods and act as In order to improve the physical and chemical properties of graphene materials, they are modified with various additives.…”

Section: Functionalization and Doping Of Structured Materialsmentioning

confidence: 99%

“…These additives are introduced into the graphite structure by various chemical and physical methods and act as In order to improve the physical and chemical properties of graphene materials, they are modified with various additives. Both heteroatoms, such as S [111], N [40,[112][113][114], P [115,116], F [117], and various compounds, such as tin oxides [118,119], silicon oxides [120], and others [121], can serve as doping materials. These additives are introduced into the graphite structure by various chemical and physical methods and act as functional groups.…”

Section: Functionalization and Doping Of Structured Materialsmentioning

confidence: 99%

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Recent Advances in the Development of Nanocarbon-Based Electrocatalytic/Electrode Materials for Proton Exchange Membrane Fuel Cells: A Review

Zasypkina,

Ivanova,

Spasov

et al. 2024

Catalysts

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The global issue for proton exchange membrane fuel cell market development is a reduction in the device cost through an increase in efficiency of the oxygen reduction reaction occurring at the cathode and an extension of the service life of the electrochemical device. Losses in the fuel cell performance are due to various degradation mechanisms in the catalytic layers taking place under conditions of high electric potential, temperature, and humidity. This review is devoted to recent advances in the field of increasing the efficiency and durability of electrocatalysts and other electrode materials by introducing structured carbon components into their composition. The main synthesis methods, physicochemical and electrochemical properties of materials, and performance of devices on their basis are presented. The main correlations between the composition and properties of structured carbon electrode materials, which can provide successful solutions to the highlighted issues, are revealed.

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Section: Functionalization and Doping Of Structured Materialsmentioning

confidence: 99%

Section: Functionalization and Doping Of Structured Materialsmentioning

confidence: 99%

Recent Advances in the Development of Nanocarbon-Based Electrocatalytic/Electrode Materials for Proton Exchange Membrane Fuel Cells: A Review

Zasypkina,

Ivanova,

Spasov

et al. 2024

Catalysts

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“…Extensive research has been conducted on polymeric matrices where ceramic particles are embedded [16] [17] [18]. By combining the flexibility and strength of polymers with the hardness and corrosion resistance of ceramics, it becomes possible to have all these properties in a single coating layer [14][16] [19]. We present the synthesis with the inclusion of silica particles by an in-situ reaction; with the aim to create a truly hybrid-structured material that can diminish the number of layers used in the anticorrosive systems, that are usually multilayered, which would be able to combine the anticorrosive properties of PMMA and silica particles.…”

Section: Introductionmentioning

confidence: 99%

Effect of SiO₂ concentration on the mechanical and anticorrosive properties of the hybrid PMMA/SiO₂ coating synthesized in situ by sol-gel process.

Reyes-Tesillo,

López-Campos,

Mojica-Gómez

et al. 2024

J. Phys.: Conf. Ser.

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Anti-corrosive evaluation of a hybrid polymethylmethacrylate (PMMA) with silica particles (SiO2) is presented, the hybrid (PMMA-SiO2) was synthetized in situ by sol-gel process. The SiO2 particles were embedded into to matrix PMMA at different concentrations. The hybrid structure of the coatings was characterized and observed with Fourier Transform Infrared spectroscopy (FT-IR) and scanning electron microscopy (SEM). The deposition of the hybrid in aluminum 7075-T6 (Al7075) substrates was made with the blade coating technique, measuring wet and dry film thickness. For the preparation of the hybrid, PMMA was used without any type of curing, which allowed us to save resources. All tests were performed according to American Society for Testing and Materials (ASTM international) standards. The incorporation of SiO2 to concentrations significantly improved the mechanical and anti-corrosive results. PMMA-SiO2 coating, once deposited on the surface of Al7075 plates, has been tested inside a salt fog chamber (CNS) operated under accelerated conditions. They were improved up to 920 h its corrosion resistance. The abrasion tests had an increase of 50%, its hardness up to 4H and the wear index improved by 50% compared with the hybrids with minor SiO2 concentration, which shows that a higher concentration of SiO2 particles has a higher performance of the coating.

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“…The invention and application of epoxy resins have brought great convenience to people's lives [1]. Epoxy resins are widely used in industry for various applications, such as adhesives [2][3][4], coatings [5,6], packaging [7,8], and other structural materials [9][10][11]. The epoxy resins have a higher degree of crosslinks, thus showing thermosetting properties; for instance, higher degrees of rigidness and better strength and dimensional stability.…”

Section: Introductionmentioning

confidence: 99%

Reinforcement of Aminopropyl-Terminated Siloxane-Treated Carbon Nanotubes in Epoxy Thermosets: Mechanical and Thermal Properties

2023

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The synthesis and characterization of aminopropyl-terminated polydimethylsiloxane- treated carbon nanotube (AFCNT)-reinforced epoxy nanocomposites are reported in the current study. The amine functionalization of the CNTs was performed with a reaction to PDMS-NH2. The AFCNTs were homogeneously dispersed in epoxy resin by using an emulsifier and a three-roller mill. The AFCNTs were characterized using Fourier-transform infrared spectroscopy (FTIR) and scanning electron microscopy (SEM). The curing behavior of the epoxy/AFCNT was studied using a differential scanning calorimeter (DSC). The tensile and impact strengths of the 2.0 wt.% AFCNT-reinforced epoxy nanocomposite were enhanced by 43.2% and 370%, respectively. Moreover, the glass transition temperature (Tg) was also enhanced by 21 °C. Furthermore, significant enhancements were observed in the initial degradation and char yield values. SEM results confirmed that the AFCNTs were highly dispersed in the polymeric matrix.

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Nanostructured Epoxy-Based Anticorrosive Coatings

Cited by 7 publications

References 9 publications

Recent Advances in the Development of Nanocarbon-Based Electrocatalytic/Electrode Materials for Proton Exchange Membrane Fuel Cells: A Review

Recent Advances in the Development of Nanocarbon-Based Electrocatalytic/Electrode Materials for Proton Exchange Membrane Fuel Cells: A Review

Effect of SiO₂ concentration on the mechanical and anticorrosive properties of the hybrid PMMA/SiO₂ coating synthesized in situ by sol-gel process.

Reinforcement of Aminopropyl-Terminated Siloxane-Treated Carbon Nanotubes in Epoxy Thermosets: Mechanical and Thermal Properties

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Nanostructured Epoxy-Based Anticorrosive Coatings

Cited by 7 publications

References 9 publications

Recent Advances in the Development of Nanocarbon-Based Electrocatalytic/Electrode Materials for Proton Exchange Membrane Fuel Cells: A Review

Recent Advances in the Development of Nanocarbon-Based Electrocatalytic/Electrode Materials for Proton Exchange Membrane Fuel Cells: A Review

Effect of SiO2 concentration on the mechanical and anticorrosive properties of the hybrid PMMA/SiO2 coating synthesized in situ by sol-gel process.

Reinforcement of Aminopropyl-Terminated Siloxane-Treated Carbon Nanotubes in Epoxy Thermosets: Mechanical and Thermal Properties

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Product

Resources

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Effect of SiO₂ concentration on the mechanical and anticorrosive properties of the hybrid PMMA/SiO₂ coating synthesized in situ by sol-gel process.