Investigation of Resilience of Eccentrically Braced Frames Equipped with Shape Memory Alloys

IF 0.6 Q4 ENGINEERING, CIVIL Civil and Environmental Engineering Reports Pub Date : 2022-03-01 DOI:10.2478/ceer-2022-0010

Hamid Pirmoghan, H. Khosravi, Abbas Sadeghi, Majid Pouraminian, E. Noroozinejad Farsangi

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Abstract

Abstract Nowadays, the use of smart materials in structures is a major concern to structural engineers. The act of benefiting from numerous advantages of these materials is the main objective of researches and studies focused on seismic and structural engineering. In the present study, in addition to the development of finite element models of several steel frames using ABAQUS software, the effect of shape memory alloys (SMAs) on superelastic behavior and the various types of eccentric braces will be checked. Moreover, it was observed that the use of SMAs within various types of bracing systems of steel frames leads to a decrease in the reduction factor of the frames. Also, the eccentric bracing in which SMAs are utilized in the middle of bracing led to the highest effect on reduction of lateral drift of the frames and decrease of reduction factor. The obtained results indicated that the application of smart materials led to increasing of strain energy and base shear of the first plastic hinge, which is followed by a decrease in the reduction factor of the frame.

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形状记忆合金偏心支撑框架的回弹性研究

目前，智能材料在结构中的应用是结构工程师关注的主要问题。从这些材料的众多优点中获益是抗震和结构工程研究的主要目标。在本研究中，除了使用ABAQUS软件开发几种钢框架的有限元模型外，还将检查形状记忆合金(sma)对超弹性行为和各种偏心支撑的影响。此外，还观察到，在各种类型的钢框架支撑系统中使用sma会导致框架的减小系数降低。在偏心支撑中，采用中间加sma的偏心支撑对减小框架侧移和减小折减系数的效果最好。结果表明:智能材料的应用使第一塑性铰的应变能和基剪增大，框架折减系数随之减小;

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来源期刊

Civil and Environmental Engineering Reports ENGINEERING, CIVIL-

自引率

14.30%

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审稿时长

52 weeks