Formation of nanoporous Ta structure on Ti-Ta alloy based on a novel surface dealloying process

IF 5.8 2区材料科学 Q2 CHEMISTRY, PHYSICAL

Journal of Alloys and Compounds Pub Date : 2025-03-22 DOI:10.1016/j.jallcom.2025.179945

Lunemin Wu, Qihang Xv, Sheng Cao, Jian Zhou, Deqiang You, Xiaojian Wang

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引用次数: 0

Abstract

Nanoporous metals are considered as functional materials of great research significance that can be widely used in energy storage, sensing, catalysis and so on. However, the research on nanoporous refractory metal structures is limited, commonly used liquid metal dealloying (LMD) often requires the reaction temperature to reach the melting point of the solvent metal that used as the dissolution medium and the reaction time is normally very short, resulting in a low controllability of the structure size. In the present study, we have developed a novel surface dealloying (SD) process to prepare nanoporous Ta structures directly generated on the surface of Ti-Ta alloys. Porous Ta structures with average ligament sizes of 226-733 nm were obtained by tuning the annealing process parameters. Compared with the conventional metal dealloying process, the SD process could produce a nanoporous surface layer with fine structure and more tunable size characteristic. In addition, we explored the effect of annealing temperature on the dealloying mechanism and found that the dealloying was likely underwent transient liquid phase (TLP) dealloying process during the annealing at 900°C.

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纳米多孔金属被认为是具有重要研究意义的功能材料，可广泛应用于储能、传感、催化等领域。然而，对纳米多孔难熔金属结构的研究还很有限，常用的液态金属脱合金（LMD）通常需要反应温度达到作为溶解介质的溶剂金属的熔点，而且反应时间通常很短，导致结构尺寸的可控性很低。在本研究中，我们开发了一种新型表面脱合金（SD）工艺，可直接在钛钽合金表面制备纳米多孔钽结构。通过调整退火工艺参数，获得了平均韧带尺寸为 226-733 nm 的多孔 Ta 结构。与传统的金属脱合金工艺相比，SD 工艺可以制备出具有精细结构和更可调尺寸特征的纳米多孔表层。此外，我们还探讨了退火温度对脱合金机理的影响，发现在 900°C 退火过程中，脱合金很可能经历了瞬态液相（TLP）脱合金过程。

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来源期刊

Journal of Alloys and Compounds 工程技术-材料科学：综合

CiteScore

11.10

自引率

14.50%

发文量

5146

审稿时长

67 days

期刊介绍： The Journal of Alloys and Compounds is intended to serve as an international medium for the publication of work on solid materials comprising compounds as well as alloys. Its great strength lies in the diversity of discipline which it encompasses, drawing together results from materials science, solid-state chemistry and physics.