Corrosion Behaviour of TiC Particle-reinforced 304 Stainless Steel in Simulated Marine Environment at 650°C

Wu, Qifei; Xu, Yujie; Zhang, Jianqiang; Zhong, Ning; Fan, Chunhua; Chang, Xueting; Zhang, Xiqin

doi:10.2355/isijinternational.isijint-2018-534

Cited by 4 publications

(1 citation statement)

References 28 publications

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“…[1][2][3][4][5][6][7][8][9] Compared to other preparation technologies of TiC particle-reinforced alloys, a new in-situ technology, consisting of traditional ingot metallurgy, selfpropagation high-temperature synthesis (SHS), and electroslag remelting techniques, can realize industrial production without changing the current production processes of the enterprises. [10,11] The new technology can utilize the existing metallurgical process and obtain a clean interface and uniform distribution of TiC particles in the microstructure. The 304 stainless steel (304SS) is a typical heat-resistant stainless steel.…”

Section: Introductionmentioning

confidence: 99%

Influence of TiC addition on high‐temperature oxidation in rich pO₂ atmosphere on Cr‐rich stainless steel

Tao

Dudziak

et al. 2023

Materials & Corrosion

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In this study, the effect of TiC on the oxidation resistance of 304 stainless steel (304SS) at 650°C in air was investigated by examining oxidation kinetics and surface and cross‐sectional scale microstructures, in comparison with TiC‐free alloy. It was found that TiC addition deteriorated the oxidation resistance of 304SS at 650°C, in contrast with its improving effect on oxidation resistance at 850°C reported before. The variation of the TiC effect on the oxidation resistance of 304SS at different temperatures was attributed to the dual effect of TiC where the final results depended on if protective or nonprotective oxide scale formation occurred in TiC‐free 304SS materials.

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Section: Introductionmentioning

confidence: 99%

Influence of TiC addition on high‐temperature oxidation in rich pO₂ atmosphere on Cr‐rich stainless steel

Tao

Dudziak

et al. 2023

Materials & Corrosion

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Effect of TiC particles on the oxidation behavior of 2Cr13 stainless steel in a simulated marine environment at 550°C

Zheng

et al. 2020

Materials & Corrosion

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In this study, the oxidation behavior of 2Cr13 stainless steels with/without TiC particles was investigated in a simulated marine environment at 550°C. The results showed that TiC particles greatly accelerated the oxidation rate of 2Cr13 steel during the cyclic oxidation reaction. At the same time, the effect of acceleration was alleviated by the small size and uniform distribution of TiC particles. As galvanic corrosion in the vicinity of TiC particles occurred in 3.5% NaCl solution spray, more NaCl particles deposited on the alloy surface, especially in the area around TiC particles. At 550°C, some shell‐like oxidation products were generated on the 2Cr13 steel surface due to TiC addition, and then the porous oxidation products provided poor protective ability. Besides, the defect and stress in the oxide scale was reduced due to the small size and uniform distribution of TiC particles in 2Cr13 steel.

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Hot Corrosion Resistance of CeO2-Doped Cr3C2–NiCr Coatings on Austenite Steel Against Molten Salt (Na2SO4–60%V2O5) Environment

2022

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Corrosion Behaviour of TiC Particle-reinforced 304 Stainless Steel in Simulated Marine Environment at 650°C

Cited by 4 publications

References 28 publications

Influence of TiC addition on high‐temperature oxidation in rich pO₂ atmosphere on Cr‐rich stainless steel

Influence of TiC addition on high‐temperature oxidation in rich pO₂ atmosphere on Cr‐rich stainless steel

Effect of TiC particles on the oxidation behavior of 2Cr13 stainless steel in a simulated marine environment at 550°C

Hot Corrosion Resistance of CeO2-Doped Cr3C2–NiCr Coatings on Austenite Steel Against Molten Salt (Na2SO4–60%V2O5) Environment

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Corrosion Behaviour of TiC Particle-reinforced 304 Stainless Steel in Simulated Marine Environment at 650°C

Cited by 4 publications

References 28 publications

Influence of TiC addition on high‐temperature oxidation in rich pO2 atmosphere on Cr‐rich stainless steel

Influence of TiC addition on high‐temperature oxidation in rich pO2 atmosphere on Cr‐rich stainless steel

Effect of TiC particles on the oxidation behavior of 2Cr13 stainless steel in a simulated marine environment at 550°C

Hot Corrosion Resistance of CeO2-Doped Cr3C2–NiCr Coatings on Austenite Steel Against Molten Salt (Na2SO4–60%V2O5) Environment

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Influence of TiC addition on high‐temperature oxidation in rich pO₂ atmosphere on Cr‐rich stainless steel

Influence of TiC addition on high‐temperature oxidation in rich pO₂ atmosphere on Cr‐rich stainless steel