利用Zr系统靶材制备金属玻璃溅射膜的结构特性和结晶

4区 材料科学 Q2 Engineering
K. Kondoh, K. Kawabata, T. Serikawa, H. Kimura
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引用次数: 6

摘要

采用三种靶材:Zr55Al10Ni5Cu30块状金属玻璃靶材(𝛼-BMG靶材)、结晶块状金属玻璃靶材(c-BMG靶材)和由Zr、Al、Ni芯片和Cu板组成的单质复合靶材,在低温下采用射频溅射法制备了Zr-Al-Ni-Cu薄膜。使用这些靶材制备的薄膜的XRD谱图表明,所有薄膜都呈现出非晶结构。而使用rfs -和c-BMG作为靶材的膜的XRD谱与𝛼-BMG靶材相同,显示出2℃=38度的宽峰,显示出非晶态结构,而使用单质复合靶材的膜的XRD谱则显示出2℃=42度的宽峰,比后者更高。在不同温度下退火900秒后,使用𝛼-BMG靶材制备的薄膜结晶温度为748 K,高于BMG的结晶温度723 K,而其他薄膜的结晶温度低于723 K。XRD谱图也表明,薄膜的结晶物与BMG靶材的结晶物不同。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Structural Characteristics and Crystallization of Metallic Glass Sputtered Films by Using Zr System Target
Zr-Al-Ni-Cu thin films were deposited by the radio-frequency sputtering method at low substrate temperature using three kinds of targets: Zr55Al10Ni5Cu30 bulk metallic glass target (𝛼-BMG target), crystallized bulk metallic glass target (c-BMG target), and an elemental composite target composed of each Zr, Al, Ni chips, and Cu plate. XRD profiles of the films prepared when using these targets indicated that all of the films showed amorphous structures. While XRD profiles of the films using 𝛼- and c-BMG targets revealed a broad peak of 2𝜃=38 degree in the same way as the 𝛼-BMG target indicating amorphous structures, that of the film using elemental composite targets showed a broad peak of 2𝜃=42 degree, which is higher compared to the latter material. As a result of annealing the films at various temperatures for 900 seconds, the film using the 𝛼-BMG target showed a crystallization temperature of 748 K, higher than that of BMG with 723 K, while the other films had lower crystallization temperatures below 723 K. XRD profiles also indicated that the crystallized compounds of the films were different from those of BMG target.
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来源期刊
Advances in Materials Science and Engineering
Advances in Materials Science and Engineering Materials Science-General Materials Science
CiteScore
3.30
自引率
0.00%
发文量
0
审稿时长
4-8 weeks
期刊介绍: Advances in Materials Science and Engineering is a broad scope journal that publishes articles in all areas of materials science and engineering including, but not limited to: -Chemistry and fundamental properties of matter -Material synthesis, fabrication, manufacture, and processing -Magnetic, electrical, thermal, and optical properties of materials -Strength, durability, and mechanical behaviour of materials -Consideration of materials in structural design, modelling, and engineering -Green and renewable materials, and consideration of materials’ life cycles -Materials in specialist applications (such as medicine, energy, aerospace, and nanotechnology)
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