Preparation of oxygen vacancy through a pre-energized method to assist flash joining of Y2O3

IF 6.3 2区材料科学 Q1 MATERIALS SCIENCE, CERAMICS Journal of The European Ceramic Society Pub Date : 2025-08-01 Epub Date: 2025-02-27 DOI:10.1016/j.jeurceramsoc.2025.117332

Keying Zhang , Tianyu Li , Xuejian Liu , Zhengren Huang , Yan Liu

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Abstract

Oxygen vacancy plays a crucial role in flash joining. In this study, we use a pre-energized method as a defect engineering technology to treat the yttrium oxide before joining, thereby increasing its oxygen vacancy concentration. After the pre-energized treatment, the joint strength is significantly improved by 68.7 % under the same conditions of 1300 ℃ with a current density of 2 mA/mm² for 300 s. This demonstrates that oxygen vacancies promote the flash joining process and reduce its onset conditions. The mechanisms of oxygen vacancy are explored experimentally and theoretically, which are identified in two areas: (1) The migration of vacancies forms fast ionic conduction paths, which allows uniform current flow and competition with established routes to enhance Joule heating. Subsequent grain homogenization further promotes overall superplastic deformation; (2) Driven by an electric field, vacancies will move to the grain boundaries to provide a channel for rapid bonding and accelerate elemental diffusion, and these diffused doping elements maybe further lead to an increase in the superplastic deformation rate.

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通过预通电法制备氧空位，以辅助Y2O3的闪光连接

氧空位在闪光连接中起着至关重要的作用。在本研究中，我们采用预通电法作为缺陷工程技术，在加入前对氧化钇进行处理，从而提高氧化钇的氧空位浓度。预通电处理后，在1300℃、电流密度为2 mA/mm2、电流持续300 s的相同条件下，接头强度显著提高了68.7% %。这表明氧空位促进了闪光连接过程，降低了闪光连接的发生条件。本文从实验和理论两方面探讨了氧空位的形成机制，主要包括两个方面：(1)空位的迁移形成了快速的离子传导路径，这使得电流流动均匀，并与已有的路径竞争，从而增强焦耳加热。随后的晶粒均质化进一步促进了整体超塑性变形；(2)在电场的驱动下，空位向晶界移动，为快速结合提供了通道，加速了元素的扩散，这些扩散的掺杂元素可能进一步导致超塑性变形速率的增加。

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来源期刊

Journal of The European Ceramic Society 工程技术-材料科学：硅酸盐

CiteScore

10.70

自引率

12.30%

发文量

863

审稿时长

35 days

期刊介绍： The Journal of the European Ceramic Society publishes the results of original research and reviews relating to ceramic materials. Papers of either an experimental or theoretical character will be welcomed on a fully international basis. The emphasis is on novel generic science concerning the relationships between processing, microstructure and properties of polycrystalline ceramics consolidated at high temperature. Papers may relate to any of the conventional categories of ceramic: structural, functional, traditional or composite. The central objective is to sustain a high standard of research quality by means of appropriate reviewing procedures.