Self-Organized High-Hardness Thermal Spray Coatings

Materials Science eJournal Pub Date : 2021-02-26 DOI:10.2139/ssrn.3793930
I. McCue, B. Gaskey, Michael C. Brupbacher, W. M. Buchta, A. Chuang, K. Xie, W. Kuo, J. Erlebacher
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引用次数: 1

Abstract

We present a new dealloying-based technique to form fully-dense and high-hardness metal composite coatings. By depositing then heat treating a TiCr alloy coating on a Ni-base superalloy, a eutectic reaction occurs at the coating/substrate interface, which drives spontaneous pattern formation in both alloys analogous to liquid metal dealloying. The coating exhibits a significantly higher hardness (15 GPa) than both the starting alloy (3.7 GPa) and precursor coating (6 GPa), measured by micro- and nanoindentation, while maintaining the ability to plastically deform during micro-indentation experiments without apparent cracking or spallation. The flexibility and scalability of the dealloying process used here demonstrates a promising route towards protective coatings for structural alloys.
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自组织高硬度热喷涂涂层
提出了一种以脱合金为基础的制备全致密高硬度金属复合镀层的新方法。通过在镍基高温合金上沉积并热处理TiCr合金涂层,在涂层/基体界面处发生共晶反应,从而在两种合金中自发形成类似于液态金属合金化的图案。通过微压痕和纳米压痕测量,涂层的硬度(15 GPa)明显高于起始合金(3.7 GPa)和前驱体涂层(6 GPa),同时在微压痕实验中保持塑性变形的能力,没有明显的开裂或剥落。本文所采用的脱合金工艺的灵活性和可扩展性为结构合金的保护涂层提供了一条有前途的途径。
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Materials Science eJournal
Materials Science eJournal
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