Impact of rockfill dam structure heterogeneity on reinforced concrete face stress-strain state

M. Sainov, Igor Egorov, K. Pak
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引用次数: 3

Abstract

Introduction. One of the main principles in designing modern ultra-high rockfill dams with reinforced concrete face is the principle of zoning rockfill of various quality in the dam body. It envisages that rockfill in the shell upper part should be compacted very carefully in order to minimize to the maximum the deflections of the reinforced concrete face. In the shell lower part it is allowed placing heterogeneous rockfill with less degree of compaction. Analysis of the results of field observations over settlements of the already constructed dams shows that this pattern of zoning may lead to considerable irregularity in distribution of rockfill deformation moduli between the upstream and the downstream parts of the dam. Numerical modeling of the existing Aguamilpa dam carried out by use arlier showed that this effect may be caused by unfavorable stress-strain state of the reinforced concrete face threatening with crack formation. Were come ended using dams of homogenous structure. However, this conclusion caused doubts of some experts. More detailed studies who see results are described in this article were conducted in order to confirm or disprove this conclusion. Materials and methods. The studies were conducted by finite element method on the example of 100 m high rockfill dam. Different alternatives of rockfill deformation properties in the shell upstream and downstream parts were considered. Results. Analysis of the results of studies confirmed the conclusions made earlier about the features of the rockfill dam reinforced concrete face stress-strain state. It was revealed that increase of rockfill deformation in the dam shell downstream part leads to appearance of additional tensile longitudinal force in the face. It increases the risk of appearance of through transversal cracks in the face. However, the heterogeneous structure of the dam shell may not have a decisive impact on stress values because the value of bending moment plays a great role. Conclusions. The results of the fulfilled study as well as modern dam construction practice show the necessity of modifying the traditional pattern of rockfill zoning in the dam body. It is necessary to provide decrease of differences in rockfill deformation of the upstream and downstream parts of the dam.
堆石坝结构非均质性对钢筋混凝土面应力-应变状态的影响
介绍。现代钢筋混凝土面板超高堆石坝设计的主要原则之一是坝体内不同质量的分区原则。它设想在壳体上部的堆石料应非常仔细地压实,以尽量减少到最大的钢筋混凝土面挠度。在壳体下部允许放置压实度较小的非均质堆石料。对已建大坝沉降的现场观测结果分析表明,这种分区模式可能导致大坝上下游部分堆石料变形模量的分布相当不均匀。对已有的阿瓜米尔帕大坝进行的数值模拟表明,这种影响可能是由于钢筋混凝土面板的不利应力应变状态可能产生裂缝造成的。采用均质结构坝。然而,这一结论引起了一些专家的质疑。更详细的研究谁看到的结果在这篇文章中描述是为了证实或反驳这一结论进行的。材料和方法。以100m高堆石坝为例,采用有限元方法进行了研究。考虑了壳体上下游部分堆石料变形特性的不同选择。通过对研究结果的分析,证实了前人关于堆石坝钢筋混凝土面板应力-应变状态特征的结论。结果表明,坝壳下游堆石料变形增大,导致工作面出现附加纵向拉伸力。它增加了面部出现横向裂缝的风险。然而,坝壳的非均质结构可能对应力值没有决定性的影响,因为弯矩值起着很大的作用。完成的研究结果和现代大坝建设实践表明,改变传统的坝体堆石分区模式是必要的。减小坝体上、下游的堆石料变形差异是必要的。
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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