Effects of mechanical vibration on designed steel-based plate geometries: behavioral estimation subjected to applied material classes using finite-element method

IF 1.1 Q4 MECHANICS

Curved and Layered Structures Pub Date : 2021-01-01 DOI:10.1515/cls-2021-0021

B. W. Lenggana, A. Prabowo, U. Ubaidillah, F. Imaduddin, E. Surojo, H. Nubli, R. Adiputra

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引用次数: 7

Abstract

Abstract A research subject in structural engineering is the problem of vibration under a loading object. The two-dimensional (2D) model of a structure under loading is an example. In general, this case uses an object that is given a random frequency, which then causes various changes in shape depending on the frequency model. To determine the difference in performance by looking at the different forms of each mode, modal analysis with ANSYS was used. The samples to be simulated were metal plates with three variations of the model, namely, a virgin metal plate without any holes or stiffness, plates with given holes, and metal plates with stiffness on one side. The model was simulated with modal analysis, so that 20 natural frequencies were recorded. The sample also used different materials: low-carbon steel materials (AISI 304), marine materials (AISI 1090), and ice-class materials (AR 235). Several random-frequency models proved the deformation of different objects. Variations of sheet-metal designs were applied, such as pure sheet metal, giving holes to the sides, and stiffening the simulated metal sheet.

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机械振动对设计的钢基板几何形状的影响：使用有限元方法对应用材料类别的行为估计

摘要结构工程中的一个研究课题是荷载作用下的振动问题。荷载作用下结构的二维（2D）模型就是一个例子。通常，这种情况下使用的对象被赋予随机频率，然后根据频率模型导致形状的各种变化。为了通过观察每种模态的不同形式来确定性能的差异，使用了ANSYS进行模态分析。要模拟的样品是具有三种模型变体的金属板，即没有任何孔或刚度的原始金属板、具有给定孔的板和一侧具有刚度的金属板。通过模态分析对模型进行了仿真，记录了20个固有频率。样品还使用了不同的材料：低碳钢材料（AISI 304）、海洋材料（AISI 1090）和冰类材料（AR 235）。几个随机频率模型证明了不同物体的变形。应用了不同的金属板设计，如纯金属板、在侧面开孔和加固模拟金属板。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Curved and Layered Structures MECHANICS-

CiteScore

2.60

自引率

13.30%

发文量

审稿时长

14 weeks

期刊介绍： The aim of Curved and Layered Structures is to become a premier source of knowledge and a worldwide-recognized platform of research and knowledge exchange for scientists of different disciplinary origins and backgrounds (e.g., civil, mechanical, marine, aerospace engineers and architects). The journal publishes research papers from a broad range of topics and approaches including structural mechanics, computational mechanics, engineering structures, architectural design, wind engineering, aerospace engineering, naval engineering, structural stability, structural dynamics, structural stability/reliability, experimental modeling and smart structures. Therefore, the Journal accepts both theoretical and applied contributions in all subfields of structural mechanics as long as they contribute in a broad sense to the core theme.