Cavitation erosion-corrosion behaviour of Fe-19Cr-15Mn-0.66 N high nitrogen austenitic stainless steel in sodium chloride solution

Li, Liang; Qiao, Yanxin; Zhou, Huiling; Li, Xin; Huang, Lei; Yang, Lanlan; Wang, Lei

doi:10.1088/1402-4896/acd30c

Cited by 2 publications

(2 citation statements)

References 39 publications

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“…Due to their highly aggressive nature, chloride ions have the ability to locally break down the oxide layer at specific points on the metal surface, resulting in small areas with reduced corrosion resistance. As the anodic reaction advances, metal ions are released into the solution, leading to the enlargement of the pit [56,57]. The pit can extend both horizontally and vertically, ultimately forming a cavity (figure 6(a)).…”

Section: Electrochemical Corrosionmentioning

confidence: 99%

Electrochemical and hot corrosion analysis of novel AlBeSiTiV light weight HEA coating on SS316

Kishan,

Sree,

Akhil

et al. 2024

Phys. Scr.

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In the realm of advanced materials research, high entropy alloys (HEAs) have emerged as a dynamic and rapidly evolving field, their potential can be further harnessed by developing HEA coatings on specific substrate materials. In this study, equiatomic AlBeSiTiV lightweight HEA (LWHEA) was successfully synthesized through the precise technique of mechanical alloying (MA). Subsequently, this innovative HEA coating was applied to the SS316 substrate using atmospheric plasma spray (APS). The microstructure of the synthesized HEA revealed a prominent FCC phase, with the coating having an average thickness of approximately 150 µm. Notably, the coated and coated annealed samples displayed improved microhardness of 985±13, and 1100±15 HV which was five and six times respectively that of the substrate. Electrochemical and hot corrosion tests were conducted on the substrate, coated, and coated annealed samples. The outcomes shed light on the profound impact of annealing in mitigating the corrosion rate as the porosity of the coated annealed samples was reduced to 2.53% which resulted in a significant reduction in corrosion rate when compared to coated samples. Hot corrosion tests demonstrated mass loss in the substrate due to the formation of iron oxide and subsequent spallation of it while mass gain in the coated and coated annealed samples due to oxide layer formation. Coated annealed samples exhibited lower mass gain in comparison to coated samples, showing reductions of 6% and 3% in Na2SO4/NaCl and Na2SO4/ V2O5, respectively. These findings underscore the immense promise of the annealed coating for applications demanding steadfast protection against corrosive challenges.

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Section: Electrochemical Corrosionmentioning

confidence: 99%

Electrochemical and hot corrosion analysis of novel AlBeSiTiV light weight HEA coating on SS316

Kishan,

Sree,

Akhil

et al. 2024

Phys. Scr.

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“…Electrochemical corrosion technology is crucial for exploring metals and alloys' corrosion resistance in seawater and studying biological implants [15][16][17]. Guo et al investigated the effect of chlorides on the secondary passivation film (SPF) of the laser additive manufacturing nickel-based superalloys by electrochemical machining [18].…”

Section: Introductionmentioning

confidence: 99%

Mechanical characteristics and electrochemical corrosion of NiCoCr alloys

Lu,

Bui,

Fang

2024

Phys. Scr.

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Previous studies have shown that NiCoCr medium entropy alloys (MEAs) have perfect strength-ductility balance and significant escape fracture toughness. This work aimed to determine the effects of annealing temperature and alloy composition on the mechanical characteristics and corrosion behaviors of the NiCoCr MEAs. The results showed that the grains generated in the NiCoCr MEAs became more petite with the cooling rate increasing. The Vickers hardness (HV) of annealed NiCoCr MEAs increased with increasing annealing temperature. For NiCoCr alloys with different alloy compositions, the potentiodynamic polarization results showed that the NiCoCrFeMn alloy has the highest polarisation resistance, lowest current density, and lowest corrosion rate. However, the composition of Fe2O3-based passivation film makes it highly reactive and easily cleaved by Cl-. The NiCoCr and NiCoCrFe MEAs with high Ni content had a denser and slowly dissolved NiO passivation layer and better corrosion resistance. Moreover, the hardness of corroded NiCoCr MEAs decreased by 7.7 %.

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Cavitation erosion-corrosion behaviour of Fe-19Cr-15Mn-0.66 N high nitrogen austenitic stainless steel in sodium chloride solution

Cited by 2 publications

References 39 publications

Electrochemical and hot corrosion analysis of novel AlBeSiTiV light weight HEA coating on SS316

Electrochemical and hot corrosion analysis of novel AlBeSiTiV light weight HEA coating on SS316

Mechanical characteristics and electrochemical corrosion of NiCoCr alloys

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