粘性土的无网格运动震动分析

IF 2.6 Q2 ENGINEERING, GEOLOGICAL International Journal of Geo-Engineering Pub Date : 2024-02-20 DOI:10.1186/s40703-024-00209-1

Z. Nosrati, S. M. Binesh

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引用次数: 0

摘要

针对重复荷载作用下粘性土的运动震动分析，提出了一种新颖的无网格解决方案。为此，Koiter 定理数学表达式中的连续速度场被径向点插值法（RPIM）离散化，作为一种无网格方法。应变率平滑技术与 RPIM 结合使用，以满足整个问题域的可接受性条件。利用节点积分和离散化速度场，运动振动问题被表述为一个非线性优化问题。利用重复算法，通过分离塑性区和非塑性区/刚性区来解决优化问题。最后，通过解决重复荷载下粘性土上的条形路基和粘性半空间路面的实例，阐明了所提方法的效率。

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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Mesh-free kinematic shakedown analysis of cohesive soils

A novel mesh-free solution is proposed for kinematic shakedown analysis of cohesive soils under repeating loads. For this purpose, the continuous velocity field in the mathematical expression of Koiter’s theorem is discretized by the Radial Point Interpolation Method (RPIM), as a mesh-free approach. The strain rate smoothing technique is implemented in conjunction with the RPIM to satisfy the admissibility conditions at the entire problem domain. Using the nodal integration and the discretized velocity field, the kinematic shakedown problem is expressed as a nonlinear optimization problem. The optimization problem is solved by separation of plastic and non-plastic/rigid zones using a repetitive algorithm. Eventually, the efficiency of the proposed approach is elucidated by solving examples of a strip footing resting on cohesive soil and a cohesive half space pavement under repeating loads.

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