Steel Beam-to-Column RBS Connections: FEM Analysis under Cyclic Loading

力学国际期刊(英文) Pub Date : 2019-02-01 DOI:10.4236/WJM.2019.92002

D. Sophianopoulos, A. E. Deri

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引用次数: 3

Abstract

In a companion paper [1], an optimization scheme for extended-end-plate Reduced Beam Section (RBS) connections of steel-moment-frames was presented, based on the component method of Eurocode 3, on regression analysis and on principles of Mechanics under monotone loading. European beam and column profiles were utilized, in conjunction with geometric restrictions and constraints of North American and European Standards for prequalified radius-cut RBS. Τhe aforementioned method aimed for an excellent seismic performance, the verification and validation of which is the content of the present study. Using FEM modeling and accounting for the assumptions used in the optimum design, after calibration with existing experimental data, the optimum connections were numerically analyzed under cyclic loading, adopting a well-accepted displacement-based protocol. All optimum solutions exhibited an excellent cyclic response, and met very satisfactorily all the performance criteria for seismic design. Results in terms of hysteretic M-φ curves at three characteristic areas of the connections validate the whole analysis, a fact aiming to assist in incorporation the radius-cut RBS concept in European Steel Design Codes and engineering practice.

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循环荷载作用下钢梁-柱RBS连接的有限元分析

在另一篇论文[1]中，基于欧洲规范3的构件法、回归分析和单调荷载作用下的力学原理，提出了钢-弯矩框架扩展端板减截面连接的优化方案。欧洲梁和柱的轮廓，结合几何限制和北美和欧洲标准的限制，预审合格的半径切割RBS。Τhe上述方法旨在获得优异的抗震性能，对其进行验证和验证是本研究的内容。采用有限元建模方法，在考虑优化设计假设的基础上，结合已有实验数据进行校正，采用基于位移的优化方案，对循环荷载作用下的优化连接进行了数值分析。所有优化方案均表现出良好的循环响应，并非常满意地满足抗震设计的所有性能标准。连接处三个特征区域的M-φ滞回曲线的结果验证了整个分析，这一事实旨在帮助将半径切割RBS概念纳入欧洲钢铁设计规范和工程实践。

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

力学国际期刊(英文)

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275