不同加热速率下 Zr59.5Cu14.4Ni11.6Al9.7Nb4.8 金属玻璃的结晶路径和非等温动力学特性

IF 5.3 2区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Yi Wu , Biao Li , Yuhui Zhu , Xudong Yuan , Tingyi Yan , Hongwei Zhang , Huameng Fu , Haifeng Zhang , Long Zhang
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引用次数: 0

摘要

本研究对 Zr59.5Cu14.4Ni11.6Al9.7Nb4.8 金属玻璃加热后的结晶路径和非等温动力学进行了研究。脱硝过程包括按照二十面体准晶(IQ)相、含镍相和含铜相的顺序形成的相。计算了不同加热速率下的阿夫拉米指数,从而深入了解了非等温结晶动力学。IQ 相和含镍相为界面控制生长,而含铜相为扩散控制生长。此外,还构建了加热速率范围超过六个数量级的连续加热转变(CHT)图,并揭示了不同加热速率下的结晶机理。这些发现丰富了对金属玻璃结晶路径和动力学的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Crystallization path and non-isothermal kinetics of the Zr59.5Cu14.4Ni11.6Al9.7Nb4.8 metallic glass under different heating rates

Crystallization path and non-isothermal kinetics of the Zr59.5Cu14.4Ni11.6Al9.7Nb4.8 metallic glass under different heating rates

In this work, the crystallization path and non-isothermal kinetics upon heating of the Zr59.5Cu14.4Ni11.6Al9.7Nb4.8 metallic glass were investigated. The devitrification process consists the formation of phases in the sequence of icosahedral quasicrystal (IQ) phase, Ni-containing phases, and Cu-containing phases. Avrami exponents were calculated at various heating rates, providing insights into the non-isothermal crystallization kinetics. The IQ phase and Ni-containing phases are interface-controlled growth, while the Cu-containing phases are diffusion-controlled growth. In addition, a continuous heating transition (CHT) diagram with a heating rate range exceeding six orders of magnitude was constructed, and the crystallization mechanism under different heating rates was revealed. These findings enrich the understanding of crystallization path and kinetics of metallic glass.

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来源期刊
Scripta Materialia
Scripta Materialia 工程技术-材料科学:综合
CiteScore
11.40
自引率
5.00%
发文量
581
审稿时长
34 days
期刊介绍: Scripta Materialia is a LETTERS journal of Acta Materialia, providing a forum for the rapid publication of short communications on the relationship between the structure and the properties of inorganic materials. The emphasis is on originality rather than incremental research. Short reports on the development of materials with novel or substantially improved properties are also welcomed. Emphasis is on either the functional or mechanical behavior of metals, ceramics and semiconductors at all length scales.
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