贝塔相控制 Zr-2.5Nb 双相中阿尔法相内的氢化物沉淀

IF 5.3 2区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Scripta Materialia Pub Date : 2024-10-28 DOI:10.1016/j.scriptamat.2024.116419
Yu-Jie Jia, Wei-Zhong Han
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引用次数: 0

摘要

在金属材料中,新相的形成通常遵循与基体的固定取向关系,即在热平衡条件下,氢化物倾向于在六方锆(Zr)的基面上形成。在这里,我们发现在 Zr-2.5Nb 双相中,α-Zr 内的氢化物析出偏离了传统方式,而是受 β-Zr 的支配。γ-ZrH和β-Zr之间有两种取向关系,即库尔德朱莫夫-萨克斯(Kurdjumov-Sachs)和皮奇(Pitsch)。氢化物的习性面始终与 {112}β 对齐。氢化物可以穿过各种群落边界,但受到 β-Zr 晶界的阻碍。氢在体心立方体 β-Zr 中的高溶解度和快速扩散速率是双相锆合金中独特的氢化物相变的起源。我们的发现可为双相材料的固态相变提供一些新的认识。
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Beta phase controls hydride precipitation within alpha phase in dual-phase Zr-2.5Nb
Formation of a new phase usually follows a fixed orientation relationship with matrix in metallic materials, i.e., hydrides prefer to form on the basal plane in hexagonal zirconium (Zr) under thermal equilibrium conditions. Here, we identify that hydride precipitation within α-Zr in dual-phase Zr-2.5Nb deviates from the traditional manner, being governed by β-Zr. Two types of orientation relationships between γ-ZrH and β-Zr are identified, namely Kurdjumov-Sachs and Pitsch. The habit plane of hydrides consistently aligns with {112}β. Hydrides can cross various colony boundaries but are obstructed by the β-Zr grain boundary. The high solubility and the fast diffusion rate of hydrogen inside body-centered cubic β-Zr are the origin of the unique hydride phase transformation in dual-phase Zircaloy. Our findings may provide some new understanding for solid-state phase transformation in dual-phase materials.
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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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