基于dft的有限元模型研究单层铋的弹性、屈曲和振动特性

IF 1.5 4区 工程技术 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Engineering Computations Pub Date : 2023-11-21 DOI:10.1108/ec-05-2023-0239
Peyman Aghdasi, Shayesteh Yousefi, Reza Ansari
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引用次数: 0

摘要

目的基于密度泛函理论(DFT)和有限元方法(FEM),研究单层铋的弹性、屈曲和振动行为。设计/方法/方法基于离散傅里叶变换计算的弹性特性,建立了单层铋的有限元模型,其中Bi-Bi键用梁单元模拟。此外,还利用质量元对Bi原子进行了建模。将所建立的有限元模型用于计算单层铋的杨氏模量。利用该模型计算了不同几何参数下单层铋的屈曲力和基本固有频率。结果表明,该模型能较好地预测单层铋的杨氏模量,具有较好的精度。结果还表明,垂直边长对单层铋基固有频率的影响不显著。然而,铋的振动特性受到水平边长的显著影响。采用有限元法和傅里叶变换法研究了单层铋的弹性、振动和屈曲性能。所建立的模型可以准确地预测单层铋的杨氏模量。垂直边长对基频的影响可以忽略不计。然而,振动特性受水平边长的显著影响。
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A DFT-based finite element model to study the elastic, buckling and vibrational characteristics of monolayer bismuthene

Purpose

In this paper, based on the density functional theory (DFT) and finite element method (FEM), the elastic, buckling and vibrational behaviors of the monolayer bismuthene are studied.

Design/methodology/approach

The computed elastic properties based on DFT are used to develop a finite element (FE) model for the monolayer bismuthene in which the Bi-Bi bonds are simulated by beam elements. Furthermore, mass elements are used to model the Bi atoms. The developed FE model is used to compute Young's modulus of monolayer bismuthene. The model is then used to evaluate the buckling force and fundamental natural frequency of the monolayer bismuthene with different geometrical parameters.

Findings

Comparing the results of the FEM and DFT, it is shown that the proposed model can predict Young's modulus of the monolayer bismuthene with an acceptable accuracy. It is also shown that the influence of the vertical side length on the fundamental natural frequency of the monolayer bismuthene is not significant. However, vibrational characteristics of the bismuthene are significantly affected by the horizontal side length.

Originality/value

DFT and FEM are used to study the elastic, vibrational and buckling properties of the monolayer bismuthene. The developed model can be used to predict Young's modulus of the monolayer bismuthene accurately. Effect of the vertical side length on the fundamental natural frequency is negligible. However, vibrational characteristics are significantly affected by the horizontal side length.

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来源期刊
Engineering Computations
Engineering Computations 工程技术-工程:综合
CiteScore
3.40
自引率
6.20%
发文量
61
审稿时长
5 months
期刊介绍: The journal presents its readers with broad coverage across all branches of engineering and science of the latest development and application of new solution algorithms, innovative numerical methods and/or solution techniques directed at the utilization of computational methods in engineering analysis, engineering design and practice. For more information visit: http://www.emeraldgrouppublishing.com/ec.htm
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