Pushover Analysis of Reinforced Concrete Bridge Pier Designed as Per IRC-6 Codal Provision

Q2 Engineering Tumu yu Huanjing Gongcheng Xuebao/Journal of Civil and Environmental Engineering Pub Date : 2020-01-01 DOI:10.37421/JCCE.2020.10.356

M. Farhan, M. Tasleem

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Abstract

The seismic evaluation for the damage caused by ground motion to existing bridges has attracted focus of structural engineers in recent years. It is the first step towards curbing loss of life and property. Most of the reinforced concrete bridges in India were designed as per previous building codes. Those codes seldom accounted for large seismic motions and were insufficient to sustain the seismic loads acting laterally. It is necessary to evaluate damages caused to already constructed bridges. In this paper nonlinear static (pushover) method is focused for performing seismic analysis of RCC Bridge. It is conceptually easier to understand and model and requires low time for computation. Major advancement in pushover analysis procedures is seen in last 10 years and it has led to its introduction to international codes/guidelines for seismic analysis. The pier are subjected to dead load, live load and seismic loading and designed as per IRC-6 2012. The study aimed to determine the seismic performance of the typical reinforced concrete bridge pier designed as per Indian codes with displacement based pushover analysis approach.

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按IRC-6规范设计钢筋混凝土桥墩的推覆分析

近年来，对既有桥梁地震动损伤的地震评价一直是结构工程师关注的焦点。这是遏制生命和财产损失的第一步。印度大多数钢筋混凝土桥都是按照以前的建筑规范设计的。这些规范很少考虑到大的地震运动，不足以承受横向作用的地震荷载。有必要对已建成的桥梁所造成的损害进行评估。本文主要采用非线性静力(推覆)法对碾压混凝土桥梁进行抗震分析。它在概念上更容易理解和建模，并且需要较少的计算时间。在过去10年中，推覆分析程序取得了重大进展，并将其引入了地震分析的国际规范/指南。桥墩承受恒载、活载和地震荷载，并按IRC-6 2012设计。本研究旨在利用基于位移的推覆分析方法确定按印度规范设计的典型钢筋混凝土桥墩的抗震性能。

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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