Creep Behavior of the Clay Cores at the Bougdoura Dam Using Ansys Software

IF 1 Q4 ENGINEERING, CIVIL Journal of Applied Engineering Sciences Pub Date : 2023-12-01 DOI:10.2478/jaes-2023-0024
K. Ghouilem, D. Atlaoui, S. Merakeb
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Abstract

Abstract The creep of fine soils is due to the viscous properties of the assembly of mineral particles accompanied of adsorbed water which forms intergranular skeleton. It is evident during the secondary consolidation that the effective stresses are constant, the deformation extends over time. Rock fill dams with clay sealing cores deformed during exploitation. During commissioning of the core, clay undergoes. Creep is a major characteristic of the nonlinear behaviour of materials, in which the material continues to become deformed under a constant load. It can cause considerable deformations of the works (two to three times instantaneous strain in three years). This study presents a prediction of the creep behavior of a clay core in a rock dam subjected to constant hydrostatic loading for 20000 h and describes a procedure for modeling the primary and secondary creep law simulation using ANSYS software APDL In this aims, we have applied the finite element method based on a model shown in equation 8 called (Strain Hardening Model) in order to simulate a creep behavior of clay core.
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使用 Ansys 软件分析布格杜拉大坝粘土内核的蠕变行为
细土的蠕变是由于矿物颗粒的黏性和吸附水形成的粒间骨架。在二次固结过程中,有效应力是恒定的,变形随时间延长。粘土封心堆石坝在开采过程中发生变形。在岩心调试期间,粘土经受。蠕变是材料非线性行为的主要特征,材料在恒定载荷下继续变形。它会引起相当大的变形(三年内瞬时应变的两到三倍)。本研究预测了某石坝粘土岩心在恒定静水荷载作用下20000h的蠕变行为,并描述了利用ANSYS软件APDL进行一次和二次蠕变规律模拟的过程。为此,我们采用了基于方程8所示模型(应变硬化模型)的有限元方法来模拟粘土岩心的蠕变行为。
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来源期刊
自引率
9.10%
发文量
18
审稿时长
12 weeks
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