基于惯性土的刚性路面板动力响应。

International Scholarly Research Notices Pub Date : 2016-01-10 eCollection Date: 2016-01-01 DOI:10.1155/2016/4975345
Mohamed Gibigaye, Crespin Prudence Yabi, I Ezéchiel Alloba
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引用次数: 10

摘要

这项工作提出了路面板的动力响应静置在土壤,其惯性是考虑在路面设计的合理方法。因此,路面被建模为具有有限尺寸的薄板,纵向由销钉支撑,横向由拉杆支撑。采用Pasternak-Vlasov型(三参数型)基础模型对路基进行建模,将移动交通荷载表示为沿板直线匀速移动的集中动荷载。利用改进的Bolotin法求解了该问题的控制方程,确定了系统的固有频率和波数。利用本征函数的正交性质求出问题的通解。结果表明,在考虑板中心荷载的情况下,板的挠度在板的中间处最大,而在板的边缘处不为零。因此,当考虑土的惯性时,观察到挠度降低了18.33%。这一结果表明,在路面动力设计中考虑土体惯量可能带来的经济效益。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Dynamic Response of a Rigid Pavement Plate Based on an Inertial Soil.

Dynamic Response of a Rigid Pavement Plate Based on an Inertial Soil.

Dynamic Response of a Rigid Pavement Plate Based on an Inertial Soil.

Dynamic Response of a Rigid Pavement Plate Based on an Inertial Soil.

This work presents the dynamic response of a pavement plate resting on a soil whose inertia is taken into account in the design of pavements by rational methods. Thus, the pavement is modeled as a thin plate with finite dimensions, supported longitudinally by dowels and laterally by tie bars. The subgrade is modeled via Pasternak-Vlasov type (three-parameter type) foundation models and the moving traffic load is expressed as a concentrated dynamic load of harmonically varying magnitude, moving straight along the plate with a constant acceleration. The governing equation of the problem is solved using the modified Bolotin method for determining the natural frequencies and the wavenumbers of the system. The orthogonal properties of eigenfunctions are used to find the general solution of the problem. Considering the load over the center of the plate, the results showed that the deflections of the plate are maximum about the middle of the plate but are not null at its edges. It is therefore observed that the deflection decreased 18.33 percent when the inertia of the soil is taken into account. This result shows the possible economic gain when taking into account the inertia of soil in pavement dynamic design.

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