Development of a lattice model for predicting nonlinear torsional behavior of RC beams

IF 2.2 4区工程技术 Q2 ENGINEERING, CIVIL

Structural Engineering and Mechanics Pub Date : 2021-01-01 DOI:10.12989/SEM.2021.79.6.779

Yeongseok Jeong, M. Kwon, Jinsup Kim

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引用次数: 0

Abstract

Seismic design criteria based on performance of structures have recently been adopted by practicing engineers in response to destructive earthquakes. A simple but efficient structural-analysis tool capable of predicting both strength and ductility is needed to analyze reinforced concrete (RC) structures subjected to such events. Hence, a three-dimensional lattice model is developed in this study to analyze torsions in high-strength RC beams. Optimization techniques for determining optimal variables in each lattice model are introduced. Pure torsion tests of RC beams were performed to use to propose a threedimensional lattice model. The experimental test results of pure torsion on RC beam specimens were used to compare with numerical results obtained using the proposed model. Then, the proposed model was also compared to 3D solid model in commercial finite element analysis program, ABAQUS. Correlation studies between the numerical and experimental results confirm that the proposed model is well capable of representing salient features of the experimental results. Furthermore, the proposed model provides better predicted displacement corresponding to peak load. than the result from ABAQUS.

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预测钢筋混凝土梁非线性扭转性能的格点模型的建立

基于结构性能的抗震设计标准最近已被实践工程师采用，以应对破坏性地震。需要一种既能预测强度又能预测延性的简单而有效的结构分析工具来分析受此类事件影响的钢筋混凝土(RC)结构。因此，本研究建立了一个三维晶格模型来分析高强钢筋混凝土梁的扭转。介绍了在每个格子模型中确定最优变量的优化技术。通过钢筋混凝土梁的纯扭转试验，提出了钢筋混凝土梁的三维晶格模型。用钢筋混凝土梁试件的纯扭转试验结果与采用该模型得到的数值结果进行了比较。并在商用有限元分析软件ABAQUS中与三维实体模型进行了对比。数值结果与实验结果的相关性研究证实了该模型能够很好地表征实验结果的显著特征。此外，该模型能较好地预测峰值荷载对应的位移。与ABAQUS的结果比较。

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

Structural Engineering and Mechanics 工程技术-工程：机械

CiteScore

3.80

自引率

18.20%

发文量

审稿时长

11 months

期刊介绍： The STRUCTURAL ENGINEERING AND MECHANICS, An International Journal, aims at: providing a major publication channel for structural engineering, wider distribution at more affordable subscription rates; faster reviewing and publication for manuscripts submitted; and a broad scope for wider participation. The main subject of the Journal is structural engineering concerned with aspects of mechanics. Areas covered by the Journal include: - Structural Mechanics - Design of Civil, Building and Mechanical Structures - Structural Optimization and Controls - Structural Safety and Reliability - New Structural Materials and Applications - Effects of Wind, Earthquake and Wave Loadings on Structures - Fluid-Structure and Soil-Structure Interactions - AI Application and Expert Systems in Structural Engineering. Submission of papers from practicing engineers is particularly encouraged.