Corrosion Resistance of Pipeline Steel with Damaged Enamel Coating and Cathodic Protection

Fan, L. T.; Reis, Signo Tadeu Dos; Chen, Genda; Koenigstein, Michael L.

doi:10.3390/coatings8050185

Cited by 28 publications

(18 citation statements)

References 23 publications

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“…Mild steel is the most commonly used material in engineering applications; but it has very poor corrosion resistance. The surface properties of a ferrous alloy can be modified through various methods, such as heat treatment, PVD, thermal spraying, epoxy coating, enamel coatings, laser cladding, and microwave cladding [2][3][4][5][6]. Thermal spraying is the most commonly used technique due to its ease of operation and ability to deposit a range of materials on a substrate.…”

Section: Introductionmentioning

confidence: 99%

“…However, the weak mechanical bonding between splats and the significantly higher porosity are the major limitations associated with the thermal spray technique [7][8][9]. Epoxy coatings are widely used in natural gas and crude oil pipelines, but these coatings exhibit weak bonding with their steel substrates and therefore they are subjected to under-film corrosion [6]. Enamel coating has excellent resistance to abrasion and mechanical shocks particularly in extreme wear and erosion applications.…”

Section: Introductionmentioning

confidence: 99%

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Microwave cladding of Inconel-625 on mild steel substrate for corrosion protection

Singh

Vasudev

Bansal

et al. 2020

Mater. Res. Express

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In the present work, Inconel-625 cladding was performed on a mild steel (MS) substrate through a cost-effective microwave technique. Cladding was performed in an industrial microwave oven operated at 1.2 kW and 2.45 GHz. The XRD observation indicates the presence of Laves and carbide phases in addition to a Ni-Cr-Fe based face-centered-cubic (fcc) matrix in the fusion zone microstructure of the clad specimen. The microstructural characterization shows a homogenous and dense microstructure with a porosity value of less than 1%. The columnar dendrites grew perpendicularly to the substrate was observed in the clad zone microstructure. The average microhardness of the deposited clad was significantly higher than that of the base metal (MS), indicating improved surface properties of the base material. Further, corrosion testing indicates that the clad specimen has significantly higher corrosion resistance than that of the base metal (MS) in a 3.5 wt% NaCl solution.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Microwave cladding of Inconel-625 on mild steel substrate for corrosion protection

Singh

Vasudev

Bansal

et al. 2020

Mater. Res. Express

View full text Add to dashboard Cite

show abstract

Section: Introductionmentioning

confidence: 99%

“…The protection of pipeline steel by the use of inorganic coatings has been reported by many researchers [19][20][21][22]. Fan et al [19,20] investigated the protection of pipeline steels enamel coatings, while Chatha et al [21] studied the effect of the Cr 3 C 2 -NiCr coating layer on the corrosion protection of T91 boiler steel under different types of environments. The authors [21] claimed that this coating offers a high melting point and maintains high hardness, strength and wear resistance up to a maximum operating temperature of 900 • C. Tillmann et al [22] also claimed that the Cr 3 C 2 -NiCr coating features a very low porosity, low oxidization and low carbide decomposition or carbide-matrix dissolution, which leads to increasing hardness and abrasion resistance.…”

Section: Introductionmentioning

confidence: 99%

Cr3C2-NiCr Coating for the Protection of API Steel Corrosion in Concentrated Sodium Chloride Solution

2020

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In the present work, a layer of 75%Cr3C2−25%NiCr with thickness of 260 ± 15 µm was coated onto the API-2H pipeline steel surface using high-velocity oxy-fuel deposition. The effect of 75%Cr3C2−25%NiCr coating on the corrosion of the API steel after 1 h, 24 h, and 48 h exposure in 4.0% sodium chloride solutions is reported. The corrosion tests were performed using potentiodynamic cyclic polarization, electrochemical impedance spectroscopy, and chronoamperometric current–time techniques along with scanning electron microscopy and energy-dispersive X-ray analyses. The curves of polarization indicated that the presence of the coating increases the corrosion resistance of the steel through decreasing its corrosion current and corrosion rate. Impedance data showed that all resistances recorded higher values for the coated API steel. Chronoamperometric current–time measurements confirmed that the coated API steel has lower absolute current values and thus lower corrosion rate. All results proved that the presence of 75%Cr3C2−25%NiCr coating enhances the corrosion resistance of the API steel via the formation of a protective layer of Cr and Ni oxides, which could lead to decreasing the corrosion rate.

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“…However, when damaged the efficacy might be compromised. Evaluation of these coatings when damaged offers new insights into the behaviour of these coatings [13].…”

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confidence: 99%

Special Issue: “Coatings for Harsh Environments”

Paul

2020

Coatings

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The operation of numerous safety-critical components in industries around the world relies on protective coatings. These coatings often allow process equipment to be purposeful in environments well beyond the operational limit of the uncoated components. Durability, ease of application, repairability, reliability and long-term performance of such coatings are vital to their application. Therefore, this Special Issue of Coatings, “Coatings for Harsh Environments”, is devoted to research and review articles on the metallic, non-metallic and composite coatings used in aggressive environments.

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Corrosion Resistance of Pipeline Steel with Damaged Enamel Coating and Cathodic Protection

Cited by 28 publications

References 23 publications

Microwave cladding of Inconel-625 on mild steel substrate for corrosion protection

Microwave cladding of Inconel-625 on mild steel substrate for corrosion protection

Cr3C2-NiCr Coating for the Protection of API Steel Corrosion in Concentrated Sodium Chloride Solution

Special Issue: “Coatings for Harsh Environments”

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