Compatible Deformation Behavior of Different Zone Layout Sections in a Clay Core Dam Via Centrifuge Modeling

IF 0.8 4区 工程技术 Q4 ENGINEERING, GEOLOGICAL Soil Mechanics and Foundation Engineering Pub Date : 2024-04-13 DOI:10.1007/s11204-024-09947-x
Fangchan He, Wanli Guo, Wei Ge
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Abstract

The compatible deformation behavior of a clay core dam is an important safety-related factor; however, it has not attracted sufficient attention, especially when the zone layouts are different along the direction of the dam axis. In this study, three centrifuge modeling tests were performed to investigate this problem. Model MY1 includes only a homogeneous clay zone, MY2 includes inclined clay core and rockfill zones, and MY3 is a composite dam. MY3-D1 and MY3-D2 denote two dam blocks in MY3, and their dam types are identical to those of MY1 and MY2, respectively. The results show that the maximum settlements along the elevation occur at the half-way point of the height of the dam body during construction and are approximately 1% of the dam height. Nearly 90% or more of settlements occur primarily during the construction period. The postconstruction additional settlement difference between MY3-D1 and MY3-D2 is less than 2 cm; and the settlements induced by reservoir filling are very similar at 14.7 and 15.8% of the entire postconstruction settlement, respectively. This result indicates that the working characteristics of the composite dam are stable, and the compatible deformation of different zone layout sections of the dam is acceptable.

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通过离心机建模研究粘土心坝中不同区域布局断面的兼容变形行为
粘土心坝的相容变形行为是一个重要的安全相关因素;然而,它并没有引起足够的重视,尤其是当沿坝轴线方向的区域布局不同时。本研究进行了三次离心机建模试验来研究这一问题。模型 MY1 仅包括均质粘土区,MY2 包括倾斜粘土核心区和填石区,而 MY3 则是一个复合坝。MY3-D1 和 MY3-D2 表示 MY3 中的两个坝块,其坝型分别与 MY1 和 MY2 相同。结果表明,在施工期间,沿高程的最大沉降发生在坝体高度的中点,约为坝高的 1%。近 90% 或更多的沉降主要发生在施工期间。MY3-D1 和 MY3-D2 施工后的额外沉降差小于 2 厘米;水库填筑引起的沉降非常接近,分别为整个施工后沉降的 14.7% 和 15.8%。这一结果表明,复合坝的工作特性是稳定的,坝体不同区段布置的兼容变形是可以接受的。
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来源期刊
CiteScore
1.50
自引率
12.50%
发文量
65
审稿时长
6 months
期刊介绍: Soil Mechanics and Foundation Engineering provides the Western engineer with a look at Russian advances in heavy construction techniques. Detailed contributions by experienced civil engineers offer insights into current difficulties in the field, applicable innovative solutions, and recently developed guidelines for soil analysis and foundation design.
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