校准多瑙河沙的低塑性参数

IF 0.6 Q4 ENGINEERING, CIVIL Slovak Journal of Civil Engineering Pub Date : 2024-03-01 DOI:10.2478/sjce-2024-0005
Amir Mosallaei, András Mahler
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引用次数: 0

摘要

土壤中应力和应变张量之间的关系由土壤构成方程描述,该方程取决于土壤类型和变形条件。各种构成模型的开发使人们能够更好地理解土壤的宏观力学特性。其中一个模型就是三十多年前发现的低塑性模型。本研究的目的是确定低塑性是否能准确代表多瑙河沙(一种特殊类型的沙子)的行为。研究人员通过实验室测量获得了多瑙河砂的八个基本低塑性参数,并采用晶间应变概念作为低塑性的扩展,以实现更精确的材料行为。然后,利用 PLAXIS 的 SoilTest 模块对所有参数进行了循环三轴试验模拟。结果表明,多瑙河砂的低塑性构造模拟模型能够相对准确地预测累积沉降。
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Calibration of Hypoplastic Parameters for Danube Sand
The relationship between stress and strain tensors in soil is described by the soil constitutive equation, which depends on the soil type and deformation conditions. The development of various constitutive models has enabled a better understanding of the macromechanical properties of soil. One such model is hypoplasticity, which was discovered more than three decades ago. The purpose of this study is to determine whether hypoplasticity could accurately represent the behavior of Danube sand, a specific type of sand. The researchers conducted laboratory measurements to obtain the eight basic hypoplastic parameters of Danube sand and employed the intergranular strain concept as an extension of hypoplasticity to achieve a more precise material behavior. All the parameters were then utilized to simulate the cyclic triaxial test using the SoilTest Module of PLAXIS. The results showed that the hypoplastic constitutive simulation model for Danube sand was capable of making relatively accurate predictions for accumulative settlement.
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审稿时长
29 weeks
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