NaCl和Na2SO4对蒸气和包铝涂层单晶涡轮叶片合金CMSX-4和RR3010低温腐蚀的影响。

IF 2.2 3区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science Pub Date : 2023-06-06 DOI:10.1007/s11661-023-07099-5
J Tjandra, A Ranjan, A K Ackerman, M Appleton, S Pedrazzini
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摘要

目前的工作对两种合金成分(RR3010和CMSX-4)和两种类型的涂层进行了系统的研究:暴露于98Na2SO4-2NaCl混合物中的向内生长(堆积)和向外生长(气相)沉积的铝化物。在涂覆之前,对一些样品进行了喷砂处理,以模拟在役程序,并在涂覆之前从表面去除氧化物。然后对涂层样品进行两点弯曲试验,在550°C下加盐和不加盐的情况下进行100小时。样品在0.6pct应变下预应变以故意预裂涂层,然后在0.3pct应变进行热处理。在两种合金的蒸镀铝化物样品的外加应力下,暴露于98Na2SO4-2NaCl中,显示出在富含金属间相互扩散区中以二次裂纹形式出现的显著涂层损伤,尽管只有CMSX-4表现出裂纹进一步扩展到大块合金中,而RR3010证明更具抵抗力。事实证明,包铝涂层对这两种合金都有更大的保护作用,裂纹只会扩展到涂层中,而不会扩展到下面的合金中。此外,喷砂处理在减少两种类型涂层的剥落和开裂方面都是有益的。这些发现被用来提出一种基于热力学反应的机制,以解释裂纹宽度通过在裂纹中形成挥发性AlCl3而变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Effect of NaCl and Na2SO4 on Low Temperature Corrosion of Vapour- and Pack-Aluminide Coated Single Crystal Turbine Blade Alloys CMSX-4 and RR3010.

The current work presents a systematic study of two alloy compositions (RR3010 and CMSX-4) and two types of coatings: inward grown (pack) and outward grown (vapour) deposited aluminides, exposed to 98Na2SO4-2NaCl mixture. Grit blasting was used on some of the samples, prior to coating, to mimic in-service procedures and remove oxides from the surface prior to coating. Two-point bend tests were then performed on the coated samples, with and without applied salt at 550 °C for 100 hours. Samples were pre-strained at 0.6 pct strain to deliberately pre-crack the coating and then strained at 0.3 pct for the heat treatment. Exposure to 98Na2SO4-2NaCl under applied stress of vapour-aluminide coated samples of both alloys, revealed significant coating damage in the form of secondary cracks in the intermetallic-rich inter-diffusion zone, although only CMSX-4 exhibited cracks propagating further into the bulk alloy while RR3010 proved more resistant. The pack-aluminide coating proved more protective for both alloys, with cracks propagating only into the coating and never into the underlying alloy. In addition, grit blasting proved beneficial in reducing spallation and cracking for both types of coating. The findings were used to propose a mechanism based on thermodynamic reactions, to explain the crack width changes through the formation of volatile AlCl3 in the cracks.

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来源期刊
CiteScore
5.30
自引率
7.10%
发文量
322
审稿时长
6 months
期刊介绍: Metallurgical and Materials Transactions A focuses on the latest research in all aspects of physical metallurgy and materials science. It explores relationships among processing, structure, and properties of materials; publishes critically reviewed, original research of archival significance. The journal address the main topics of alloy phases; transformations; transport phenomena; mechanical behavior; physical chemistry; environment; welding & joining; surface treatment; electronic, magnetic & optical material; solidification; materials processing; composite materials; biomaterials; and light metals. MMTA publishes Technical Publications, Communications, Symposia, and more. Published with ASM International, The Materials Information Society and The Minerals, Metals & Materials Society (TMS)
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