Numerical study of dynamic response of reinforced concrete bridge induced by selected heavy vehicle

Journal of KONES. Powertrain and Transport Pub Date : 2016-09-06 DOI:10.5604/12314005.1217293

P. Szurgott, Mateusz Smolarz

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Abstract

The main aim of this study is to carry out dynamic simulations of structural response of reinforced concrete bridge loaded with a moving heavy vehicle. Computational dynamics analysis was conducted using LS-DYNA computer code. The selected bridge was a reinforced-concrete structure located on the U.S. 90 in Northwest Florida. The bridge has six prestressed AASHTO type III beams and concrete deck. An 8-axle vehicle including a tractor unit and a low bed trailer were selected as a representative for the study. FE model of the tractor based on previous studies; however, a FE model of the trailer was developed for the present work. Analyses included passages of a vehicle with 47 tonnes cargo. A cargo resting on a trailer was taken into account by changing the material density of selected components in the semi-trailer FE model. Time histories of the bridge deflections in the middle of the span were recorded during the simulation tests. Simulations were performed for the vehicle velocity between 20 and 50 mph, stepped by 5 mph. An influence of the velocity on the bridge deflection was determined. The main objective of the simulation tests on the selected bridge was to assess the actual dynamic load allowance (DLA), also known as impact factor, based on the maximum deflection of the bridge span as a function of the vehicle velocity.

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选定重型车辆对钢筋混凝土桥梁动力响应的数值研究

本研究的主要目的是对钢筋混凝土桥梁在移动重型车辆荷载下的结构响应进行动力模拟。采用LS-DYNA计算机代码进行计算动力学分析。选定的桥梁是位于佛罗里达州西北部美国90号公路上的钢筋混凝土结构。该桥有6根AASHTO III型预应力梁和混凝土桥面。选择一辆8轴车辆，包括拖拉机单元和低床拖车作为研究的代表。在前人研究的基础上建立拖拉机有限元模型;然而，为本工作开发了拖车的有限元模型。分析包括一辆载有47吨货物的车辆的通道。在半挂车有限元模型中，通过改变所选部件的材料密度来考虑挂车上的货物。在模拟试验中记录了桥梁跨中挠度的时程。在车速为20至50英里/小时的情况下进行了模拟，每小时增加5英里/小时。确定了速度对桥梁挠度的影响。在选定的桥梁上进行模拟试验的主要目的是根据桥梁跨度的最大挠度作为车辆速度的函数来评估实际动载余量(DLA)，也称为冲击系数。

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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Journal of KONES. Powertrain and Transport

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