辐照材料中位错环生长行为的三维相场建模:在钨中的应用

IF 1.4 3区 物理与天体物理 Q3 INSTRUMENTS & INSTRUMENTATION Nuclear Instruments & Methods in Physics Research Section B-beam Interactions With Materials and Atoms Pub Date : 2024-08-08 DOI:10.1016/j.nimb.2024.165493
Bowen Xue , Bingchen Li , Shuo Jin , Linyun Liang
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引用次数: 0

摘要

在这项研究中,我们建立了一个相场模型来模拟辐照钨中位错环的生长行为。该模型考虑了这样一个事实,即大量的缺陷簇(如位错环和空隙)是由自间隙原子(SIAs)和级联碰撞损伤产生的空位的扩散和聚集形成的。位错环的稳定空隙相和板状形态得以重现。然后,我们研究了 SIAs 浓度、动力学系数、晶格错配应变能、外加剪切应力和位错环类型对位错环生长行为的影响。研究发现,差排环的生长率随着 SIAs 浓度、动力学系数和外加应力的增加而增加。目前的研究结果有助于理解位错环在辐照 W 和其他辐照材料中的生长行为。
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Three-dimensional phase-field modeling of dislocation loop growth behaviors in irradiated materials: Applications in tungsten

In this work, we develop a phase-field model to simulate the growth behaviors of the dislocation loop in irradiated tungsten. The model considers the fact that plenty of defect clusters such as dislocation loops and voids are formed by the diffusion and aggregation of self-interstitial atoms (SIAs) and vacancies created by cascade collision damages. The stable void phase and plate-like morphology of the dislocation loop can be reproduced. We then study the effects of the concentration of SIAs, kinetic coefficient, lattice misfit strain energy, applied shear stress, and the type of the dislocation loop on the growth behaviors of the dislocation loops. It is found that the growth rate of the dislocation loop increases with increasing the concentration of SIAs, kinetic coefficient, and applied stress. The current results can help to understand the growth behaviors of dislocation loops in irradiated W and other irradiated materials.

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来源期刊
CiteScore
2.80
自引率
7.70%
发文量
231
审稿时长
1.9 months
期刊介绍: Section B of Nuclear Instruments and Methods in Physics Research covers all aspects of the interaction of energetic beams with atoms, molecules and aggregate forms of matter. This includes ion beam analysis and ion beam modification of materials as well as basic data of importance for these studies. Topics of general interest include: atomic collisions in solids, particle channelling, all aspects of collision cascades, the modification of materials by energetic beams, ion implantation, irradiation - induced changes in materials, the physics and chemistry of beam interactions and the analysis of materials by all forms of energetic radiation. Modification by ion, laser and electron beams for the study of electronic materials, metals, ceramics, insulators, polymers and other important and new materials systems are included. Related studies, such as the application of ion beam analysis to biological, archaeological and geological samples as well as applications to solve problems in planetary science are also welcome. Energetic beams of interest include atomic and molecular ions, neutrons, positrons and muons, plasmas directed at surfaces, electron and photon beams, including laser treated surfaces and studies of solids by photon radiation from rotating anodes, synchrotrons, etc. In addition, the interaction between various forms of radiation and radiation-induced deposition processes are relevant.
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