Experimental Investigation on the Effect of Cr and Mn in High Temperature Oxidation of Cantor Alloy

IF 3.3 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Metals and Materials International Pub Date : 2024-08-13 DOI:10.1007/s12540-024-01770-1
Ranjit Kumar Dehury, Abhay Gautam, Nisha Hiralal Makani, Rupak Banerjee
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Abstract

High entropy alloys have emerged recently as promising candidates for high-temperature applications. This study explores the detailed oxidation behavior of CoCrFeMnNi alloy by using a combination of in-situ, short-duration and long-duration high-temperature exposure up to 1000 C. The study reveals Cr and Mn played a significant role in the oxidation/passivation of the alloy. It was found that Cr enhanced the oxidation resistance, especially by limiting oxygen diffusion and was quite effective up to 600 C. However, at higher temperatures, Mn continuously diffuses towards the surface and forms a poorly adherering oxide scale. Study on CoCrFeNi and CoFeMnNi alloys to investigate the roles of Cr and Mn individually revealed that under similar conditions, CoCrFeNi had a relatively continuous and less spalled oxide layer with better adherence to the alloy compared to cantor alloy. However, compared to Cr-containing alloys, the CoFeMnNi alloy did not have a continuous, well-adhering, non-protective oxide layer making the alloy prone to severe and faster oxidation. Same was apparent from significant internal oxidation, the appearance of massive cracks, and voids. Before and after the oxidation, CoCrFeMnNi and CoCrFeNi were single-phase fcc structures while CoFeMnNi decomposed into a two-phase alloy due to significant uptake of oxygen. Prolonged oxidation and molten-state studies revealed that the oxidation behaviour of HEAs is a thermodynamic-driven process, and CoCrFeMnNi is expected to gradually lose Mn to surface oxide followed by migration of Co, Ni and Fe, which otherwise hardly migrated or participated in the oxidation process. High-temperature heat treatment in vacuum confirmed that the migration to the surface was driven by its oxidation at the surface.

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康托合金高温氧化过程中铬和锰影响的实验研究
高熵合金近来已成为高温应用的理想候选材料。本研究采用原位、短时间和长时间高温暴露相结合的方法,探讨了 CoCrFeMnNi 合金的详细氧化行为,最高温度可达 1000 ⁰C。研究显示,铬和锰在合金的氧化/钝化过程中发挥了重要作用。研究发现,铬增强了合金的抗氧化性,尤其是通过限制氧的扩散,并且在 600 ℃ 以下相当有效。然而,在更高的温度下,锰不断向表面扩散,形成附着性很差的氧化鳞。通过对 CoCrFeNi 和 CoFeMnNi 合金进行研究,以了解铬和锰各自的作用,结果表明,在类似条件下,与 cantor 合金相比,CoCrFeNi 具有相对连续且剥落较少的氧化层,与合金的粘附性更好。然而,与含铬合金相比,钴铁锰镍合金没有连续的、附着性好的非保护性氧化层,因此合金容易发生严重和快速的氧化。明显的内部氧化、大量裂纹和空洞的出现也说明了这一点。氧化前后,CoCrFeMnNi 和 CoCrFeNi 均为单相 fcc 结构,而 CoFeMnNi 则由于大量吸收氧气而分解为两相合金。长时间的氧化和熔融状态研究表明,HEA 的氧化行为是一个热力学驱动的过程,预计 CoCrFeMnNi 会逐渐失去 Mn,变成表面氧化物,随后 Co、Ni 和 Fe 会迁移,否则它们几乎不会迁移或参与氧化过程。真空高温热处理证实,向表面迁移是由其表面氧化作用驱动的。
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来源期刊
Metals and Materials International
Metals and Materials International 工程技术-材料科学:综合
CiteScore
7.10
自引率
8.60%
发文量
197
审稿时长
3.7 months
期刊介绍: Metals and Materials International publishes original papers and occasional critical reviews on all aspects of research and technology in materials engineering: physical metallurgy, materials science, and processing of metals and other materials. Emphasis is placed on those aspects of the science of materials that are concerned with the relationships among the processing, structure and properties (mechanical, chemical, electrical, electrochemical, magnetic and optical) of materials. Aspects of processing include the melting, casting, and fabrication with the thermodynamics, kinetics and modeling.
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