Numerical Implementation of Energy-based Models in Explicit Finite Element Analysis for Sand in Plane Strain Compression

King Mongkut’s University of Technology North Bangkok International Journal of Applied Science and Technology Pub Date : 2016-01-25 DOI:10.14416/j.ijast.2016.01.001

P. Chattonjai

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引用次数: 1

Abstract

Soil is one of the most complex materials. In finite element analysis, the relevant constitutive model is one of the main key that provides the accurate prediction of strength and deformation characteristic of geotechnical structure. The objective of this study is to implement the elasto-plastic work-hardening-softening constitutive model (Energy-based model) into ABAQUS via VUMAT subroutine. Without updating Jacobian matrix process, the VUMAT subroutine is rather more convenient to implement than UMAT subroutine. Therefore, the high efficiency of strategy to update the new stress and plastic strain energy is crucially important. The VUMAT simulated results on the effect of initial stress and softening behavior were verified by UMAT and the experimental results of Toyoura dense sand under plane strain condition. The VUMAT subroutine could accurately simulate the strength and deformation characteristics of Toyoura sand. However, its results shows the irregularities at transition point.

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砂土平面应变压缩显式有限元分析中基于能量模型的数值实现

土壤是最复杂的物质之一。在有限元分析中，相应的本构模型是准确预测土工结构强度和变形特性的关键之一。本研究的目的是通过VUMAT子程序在ABAQUS中实现弹塑性加工硬化-软化本构模型(基于能量的模型)。在不更新雅可比矩阵过程的情况下，VUMAT子程序比UMAT子程序更方便实现。因此，高效更新新应力和塑性应变能的策略至关重要。在平面应变条件下，对初始应力和软化行为影响的VUMAT模拟结果进行了验证，并与托优拉致密砂的试验结果进行了比较。VUMAT子程序能够较准确地模拟土友拉砂的强度和变形特征。但结果表明，在过渡点处存在不规则性。

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King Mongkut’s University of Technology North Bangkok International Journal of Applied Science and Technology

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