利用原位 TEM 了解铬基 ATF 涂层的辐照响应

IF 13.2 1区 材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Yipeng Li , Jiacheng Ren , Ziqi Cao , Shangquan Zhao , Zhong-Qun Tian , Xiaoyong Wu , Guang Ran
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引用次数: 0

摘要

尽管铬铌涂层锆合金材料被认为是具有优异抗氧化性和机械性能的 ATF 候选材料,但其在苛刻和复杂服役条件下的辐照响应行为仍未得到揭示。在此,我们利用先进的原位透射电子显微镜(TEM),报告了纯铬和不同铌含量的铬铌涂层在 633 K 下同时受到 Cr+-He+-H2+ 三重离子束辐照时的微观结构演变。结果表明,铌含量高的铬铌镀层具有更好的辐照稳定性。在高温辐照条件下,具有纳米晶结构的 Cr-8 Nb 和几乎具有无定形结构的 Cr-18 Nb 涂层都能观察到辐照引起的氧化和晶粒生长或结晶,而 Cr-37 Nb 涂层在 10 dpa 剂量辐照后仍能保持相对完整的无定形相。根据对微观结构演变的原位跟踪,可以发现辐照加速涂层氧化和结晶的机理源于位移级联增强了局部原子扩散和重排。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Understanding of the irradiation response of Cr-based ATF coatings using in-situ TEM

Although CrNb coated zirconium alloy materials are considered as ATF candidates with excellent oxidation resistance and mechanical properties, the irradiation response behavior under harsh and complex service conditions is still unrevealed. Here, we report the evolution of the microstructure of pure Cr and CrNb coatings with different Nb contents under simultaneous irradiation with Cr+-He+-H2+ triple ion beams at 633 K by using an advanced in-situ transmission electron microscope (TEM). The results show that CrNb coatings with high Nb content have better irradiation stability. Under high-temperature irradiation conditions, irradiation-induced oxidation and grain growth or crystallization are observed for both Cr-8 Nb with a nanocrystalline structure and Cr-18 Nb coatings with an almost amorphous structure, whereas Cr-37 Nb coatings maintains relatively intact in the amorphous phase after irradiation at a dose of 10 dpa. Based on the in-situ tracking of the microstructural evolution, it is revealed that the mechanism of irradiation-accelerated oxidation and crystallization of coatings originates from displacement cascades enhancing local atomic diffusion and rearrangement.

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来源期刊
Nano Today
Nano Today 工程技术-材料科学:综合
CiteScore
21.50
自引率
3.40%
发文量
305
审稿时长
40 days
期刊介绍: Nano Today is a journal dedicated to publishing influential and innovative work in the field of nanoscience and technology. It covers a wide range of subject areas including biomaterials, materials chemistry, materials science, chemistry, bioengineering, biochemistry, genetics and molecular biology, engineering, and nanotechnology. The journal considers articles that inform readers about the latest research, breakthroughs, and topical issues in these fields. It provides comprehensive coverage through a mixture of peer-reviewed articles, research news, and information on key developments. Nano Today is abstracted and indexed in Science Citation Index, Ei Compendex, Embase, Scopus, and INSPEC.
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