The challenging structural integrity of dams in cold climates

Q4 Earth and Planetary Sciences
D. A. Krutov
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引用次数: 0

Abstract

The design of concrete dams for cold climates has its specific features. Particularly, the operation of dams is characterised by openings of horizontal construction joints on the downstream face due to significant temperature differences over the winter period between the downstream surface and the interior of the dam. The opening of joints increases further due to the changes in the thermal properties of concrete as it freezes. The effect of thermal stresses may induce the growth of tensile stresses on the upstream face because the dam decreases its profile. Thus, there is a problem of the effectiveness of reinforcement of the dam's downstream face. Numerical models that were developed made it possible to evaluate the strain state of a typical cross section of a gravity dam by (i) considering changes in the properties of concrete as it freezes; (ii) excluding changes in the properties of concrete; and (iii) considering changes in the properties of concrete plus reinforcement of the dam faces. As a result of this research, it has been possible to assess the actual stress-strain state of the downstream face of the dam (the average depth/width of joints openings) and evaluate changes of concrete properties at subfreezing temperatures.
寒冷气候下大坝结构完整性的挑战
寒区混凝土坝的设计有其独特的特点。特别是,大坝的运行特点是由于冬季期间下游表面和大坝内部之间的显著温差,下游表面上的水平施工缝开口。由于混凝土冻结时热性能的变化,接缝的开口进一步增加。热应力的作用可能导致上游面拉应力的增大,因为大坝的剖面减小了。因此,大坝下游面板加固的有效性存在问题。所开发的数值模型使评估重力坝典型横截面的应变状态成为可能(i)考虑混凝土冻结时特性的变化;(ii)不包括混凝土性能的变化;(3)考虑混凝土特性的变化以及坝面的加固。通过这项研究,可以评估大坝下游面板的实际应力-应变状态(接缝开口的平均深度/宽度),并评估在低温下混凝土性能的变化。
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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来源期刊
Dams and Reservoirs
Dams and Reservoirs Earth and Planetary Sciences-Geotechnical Engineering and Engineering Geology
CiteScore
0.50
自引率
0.00%
发文量
30
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