第一代 AM1 单晶镍基超级合金在 750 °C 下的 Na2SO4 沉积热腐蚀行为

IF 2.1 3区材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING

Oxidation of Metals Pub Date : 2024-09-19 DOI:10.1007/s11085-024-10304-4

D. Piel, A. Martin, E. Drouelle, J. Cormier, F. Pedraza

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引用次数: 0

摘要

本文重点介绍了即使在没有 SO3 (g) 流动的情况下，AM1 镍基单晶超级合金 (SX) 涡轮叶片的表面也会在 750 °C 的温度下发生热腐蚀，无论是在铸造 (AC) 状态还是在完全热处理 (FHT) 状态。研究发现，1 毫克/平方厘米和 3 毫克/平方厘米的 Na2SO4 沉积物会在如此低的温度下诱发硫化、氧化和碱性通量，如 I 型热腐蚀。硫化主要发生在γˈ贫化区，与基体（AC 和 FHT）无关。AC 超耐热合金中的冶金偏析延长了培育期，这与纯氧化时观察到的情况截然不同。盐含量的增加通过形成阻挡层而减少了热腐蚀侵蚀。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Hot Corrosion Behaviour by Na2SO4 Deposits of the 1st Generation AM1 Single-Crystal Nickel-Based Superalloy at 750 °C

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Hot Corrosion Behaviour by Na2SO4 Deposits of the 1st Generation AM1 Single-Crystal Nickel-Based Superalloy at 750 °C

This paper highlights that hot corrosion at 750 °C can develop on the surface of AM1 nickel-based single-crystal superalloy (SX) turbine blades, whether in the As-Cast (AC) or Fully Heat-Treated (FHT) states even in the absence of SO₃ (g) flow. It was found that the 1 and 3 mg/cm² Na₂SO₄ deposits induce sulphidation, oxidation and basic flux at such low temperature like in Type I hot corrosion. Sulphidation is mainly located in the γˈ-depleted zone irrespective the substrate (AC and FHT). The metallurgical segregations in the AC superalloy extend the incubation period in contrast to what is observed upon pure oxidation. The increase in salt content showed a reduction in hot corrosive attack by forming a barrier layer.

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来源期刊

Oxidation of Metals 工程技术-冶金工程

CiteScore

5.10

自引率

9.10%

发文量

审稿时长

2.2 months

期刊介绍： Oxidation of Metals is the premier source for the rapid dissemination of current research on all aspects of the science of gas-solid reactions at temperatures greater than about 400˚C, with primary focus on the high-temperature corrosion of bulk and coated systems. This authoritative bi-monthly publishes original scientific papers on kinetics, mechanisms, studies of scales from structural and morphological viewpoints, transport properties in scales, phase-boundary reactions, and much more. Articles may discuss both theoretical and experimental work related to gas-solid reactions at the surface or near-surface of a material exposed to elevated temperatures, including reactions with oxygen, nitrogen, sulfur, carbon and halogens. In addition, Oxidation of Metals publishes the results of frontier research concerned with deposit-induced attack. Review papers and short technical notes are encouraged.