Failure Plane on Precast Block Retaining Wall

IF 1.1 Q3 ENGINEERING, CIVIL Civil and Environmental Engineering Pub Date : 2023-05-12 DOI:10.2478/cee-2023-0008
D. I. Mazni, A. Hakam, J. Tanjung, F. Ismail, Yossyafra
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Abstract

Abstract Rankine's theory stated that the soil failure plane behind the monolith retaining wall is a linear equation and is applied similarly to the plane of precast block retaining walls. However, the actual failure plane in the field may differ from the theory. This research is done to determine the plane of soil failure behind a precast block retaining wall using wall modeling tests in the laboratory. Several stages for laboratory tests are carried out. Starting with making a precast block retaining wall with the planned dimensions, then a failure test is carried out by giving variations and adding loads in stages. The plane and pattern of failure from recorded laboratory tests. The failure shape is analyzed to obtain the mathematical equation. The shape of the failure obtained from the analysis is in the form of an S curve, with a power three polynomial function. Furthermore, the total area of the failure land is calculated. When compared with the results of the analysis using Rankine's theory equation, it is found that the area of the failure soil from the laboratory test of the precast block retaining wall is smaller, while the length of the failure of the soil is longer. The altitude simulation is continued based on the obtained mathematical model.
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预制砌块挡土墙的破坏面
摘要:Rankine理论认为整体挡土墙后土体破坏面为线性方程,适用于预制砌块挡土墙后土体破坏面。然而,现场的实际破坏面可能与理论不同。本研究采用室内墙体模型试验确定了预制挡土墙后土体破坏平面。进行了几个阶段的实验室试验。首先按照计划尺寸制作预制挡土墙,然后通过变化和分阶段增加载荷进行失效试验。实验室试验记录的故障平面和模式。对其破坏形态进行了分析,得到了数学方程。分析得到的破坏形态为S曲线形式,具有幂三次多项式函数。进而计算出失稳地的总面积。通过与Rankine理论方程分析结果对比,发现预制砌块挡土墙的室内试验失稳土面积较小,失稳土长度较长。根据得到的数学模型继续进行高度模拟。
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CiteScore
2.00
自引率
58.30%
发文量
69
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