Dynamics of functionally graded beams carrying a moving load with influence of porosities and partial foundation support

Vu Thi, An Ninh
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Abstract

The novelty of the present work is to study the simultaneous influence of porosities and partial Pasternak foundation support on dynamics of functionally graded (FG) beams carrying a moving load. The beams are made from an open-cell steel foam with symmetric and asymmetric porosity distributions in the thickness direction. Based on a refined third-order shear deformation theory, a two-node beam element with ten degrees of freedom is derived and employed to construct the discretized equation of motion for the beams. Dynamic characteristics, including the time histories for mid-span deflection, dynamic magnification factor (DMF) and the stress distribution, are computed with the aid of the Newmark method. The numerical result reveals that the foundation supporting length has an important role on the dynamics of the beams, and the dependence of the DMF upon the porosity coefficient is governed by the foundation supporting length.  It is also found that the asymmetric porosity distribution has more impact on the dynamic response of the beams than the symmetric one does, and the difference between the DMFs obtained from the two porosity distributions is more significant for the beam with a higher porosity coefficient. The effects of the porosities, the foundation support and the moving load velocity on the dynamic behavior of the beams are examined in detail and highlighted
考虑孔隙率和部分基础支撑影响的功能梯度梁动载动力学
本研究的新颖之处在于同时研究了孔隙率和部分帕斯捷尔纳克基础支撑对承载移动荷载的功能梯度梁动力学的影响。梁由开孔泡沫钢制成,在厚度方向上具有对称和不对称孔隙率分布。基于改进的三阶剪切变形理论,导出了十自由度双节点梁单元,并利用该单元建立了梁的离散化运动方程。采用Newmark法计算了桥梁的动力特性,包括跨中挠度时程、动力放大系数(DMF)和应力分布。数值计算结果表明,基础支护长度对梁的动力特性有重要影响,且DMF对孔隙率系数的依赖关系受基础支护长度的支配。非对称孔隙率分布对梁动力响应的影响大于对称孔隙率分布,且孔隙率系数越高,两种孔隙率分布对梁动力响应的影响越显著。详细分析了孔隙率、基础支撑和移动荷载速度对梁动力性能的影响
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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