辐照 bcc 铁和其他金属中具有非平行哑铃边的⟨100⟩状自间隙团簇

IF 5.3 2区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Scripta Materialia Pub Date : 2024-09-07 DOI:10.1016/j.scriptamat.2024.116353

T.P.C. Klaver , C. Domain , C.S. Becquart

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引用次数: 0

摘要

bcc Fe 中自间隙原子团簇的密度泛函理论计算出乎意料地表明，从 ∼9-14 个自间隙原子中，一个有趣的新家族--被⟨110⟩哑铃包围的无梗⟨100⟩团簇，比平行⟨111⟩哑铃的高流动性团簇更稳定。⟨110⟩边缘哑铃在⟨100⟩中心边缘的拉伸侧找到了应变能的有利位置，从而稳定了团簇。电阻率恢复结果表明，辐照铁中不存在大簇尺寸的闪烁自间隙簇，而较小的自间隙原子簇可能会存在。在一些 fcc 金属中也发现了非平行边间隙稳定高能量间隙环的机制。

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Sessile ⟨100⟩ self-interstitial clusters with non-parallel edge dumbbells in irradiated bcc Fe and other metals

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Sessile ⟨100⟩ self-interstitial clusters with non-parallel edge dumbbells in irradiated bcc Fe and other metals

Density Functional Theory calculations of self-interstitial atom clusters in bcc Fe unexpectedly show that from ∼9–14 self-interstitial atoms, an intriguing new family of sessile ⟨100⟩ clusters, surrounded by ⟨110⟩ dumbbells, are more stable than highly mobile clusters of parallel ⟨111⟩ dumbbells. The ⟨110⟩ edge dumbbells find a favorable location in terms of strain energy on the tensile side around the edges of the ⟨100⟩ center, thus stabilizing the clusters. These sessile clusters might explain resistivity recovery results that suggested an absence of glissile self-interstitial clusters up to large cluster sizes in irradiated Fe, while smaller self-interstitial atom clusters likely would have been present. The mechanism of non-parallel edge interstitials stabilizing an otherwise higher energy interstitial loop is also found in some fcc metals.

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来源期刊

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.