TINJAUAN KESTABILAN PERKUATAN LERENG MENGGUNAKAN DINDING KANTILEVER DAN DINDING GRAVITASI

Composite Journal Pub Date : 2021-01-25 DOI:10.37905/cj.v1i1.11

Annisa Eka Liani, I. M. Patuti, Rifadli Bahsuan

{"title":"TINJAUAN KESTABILAN PERKUATAN LERENG MENGGUNAKAN DINDING KANTILEVER DAN DINDING GRAVITASI","authors":"Annisa Eka Liani, I. M. Patuti, Rifadli Bahsuan","doi":"10.37905/cj.v1i1.11","DOIUrl":null,"url":null,"abstract":"Parts of Gorontalo are hills and mountains close to community settlements, which are prone to landslides. To do a research on literature review that analyzes slope reinforcement models, which will be taken into consideration for slope improvement steps in Gorontalo. Slope reinforcement includes retaining walls, gravity walls, cantilever walls and crib walls. This research discusses slope reinforcement models and their stability behavior analysis. Secondary data is in the form of research journals on slope reinforcement models. Calculation data that will be used as experimental data for modeling other retrofitting walls are obtained from the results of research from one of the reviewed journals, namely multilevel gravity walls. The wall that will be analyzed is the retaining wall of a multilevel cantilever type of wall. Analysis of active soil pressure using the Rankine method and slope stability analysis using the slice method which is carried out with the help of 2D Slide software. Based on the results of the stability analysis of slope reinforcement with the selection of stratified cantilever wall reinforcement, the value of the safety factor against sliding (Fgs) is 1.63>1.5, the safety factor against overturning (Fgl) is 2.44>2.0, the safety factor against the collapse of carrying capacity (F) is 8.49>3.0, and the global safety factor value is 1.56>1.5. The value of the safety factor for shifting and rolling has decreased by 1% and 20% respectively compared to the gravitational wall. In the wall bearing capacity, there was an increase of 31%. Changes that occur in the safety factor in cantilevered walls are caused by changing factors in the dimensions of the walls which affect the strength of the structure in the soil holding force and the type of working principle of the walls. As for the global slope stability analyzed, there was a decrease in the safety factor by 5% after changing the type of reinforcement, but it showed that the slope was still stable, because the cantilevered wall type has a slender front wall dimension compared to the gravity wall which is more resistant to the risk of lateral slope movement.","PeriodicalId":435836,"journal":{"name":"Composite Journal","volume":"15 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2021-01-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Composite Journal","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.37905/cj.v1i1.11","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

Abstract

Parts of Gorontalo are hills and mountains close to community settlements, which are prone to landslides. To do a research on literature review that analyzes slope reinforcement models, which will be taken into consideration for slope improvement steps in Gorontalo. Slope reinforcement includes retaining walls, gravity walls, cantilever walls and crib walls. This research discusses slope reinforcement models and their stability behavior analysis. Secondary data is in the form of research journals on slope reinforcement models. Calculation data that will be used as experimental data for modeling other retrofitting walls are obtained from the results of research from one of the reviewed journals, namely multilevel gravity walls. The wall that will be analyzed is the retaining wall of a multilevel cantilever type of wall. Analysis of active soil pressure using the Rankine method and slope stability analysis using the slice method which is carried out with the help of 2D Slide software. Based on the results of the stability analysis of slope reinforcement with the selection of stratified cantilever wall reinforcement, the value of the safety factor against sliding (Fgs) is 1.63>1.5, the safety factor against overturning (Fgl) is 2.44>2.0, the safety factor against the collapse of carrying capacity (F) is 8.49>3.0, and the global safety factor value is 1.56>1.5. The value of the safety factor for shifting and rolling has decreased by 1% and 20% respectively compared to the gravitational wall. In the wall bearing capacity, there was an increase of 31%. Changes that occur in the safety factor in cantilevered walls are caused by changing factors in the dimensions of the walls which affect the strength of the structure in the soil holding force and the type of working principle of the walls. As for the global slope stability analyzed, there was a decrease in the safety factor by 5% after changing the type of reinforcement, but it showed that the slope was still stable, because the cantilevered wall type has a slender front wall dimension compared to the gravity wall which is more resistant to the risk of lateral slope movement.

查看原文本刊更多论文

用KANTILEVER墙和重力墙来评估斜率的稳定性

哥伦塔洛的部分地区是靠近社区定居点的丘陵和山脉，容易发生山体滑坡。进行文献综述研究，分析边坡加固模型，为Gorontalo边坡改善步骤提供参考。边坡加固包括挡土墙、重力墙、悬臂墙和槽墙。本文对边坡加固模型及其稳定性分析进行了探讨。次要资料以边坡加固模型研究期刊的形式。计算数据将被用作模拟其他改造墙的实验数据，这些数据来自于其中一本被审查的期刊，即多层重力墙的研究结果。将要分析的墙是多层悬臂式墙的挡土墙。主动土压力分析采用朗肯法，边坡稳定性分析采用切片法，并借助2D Slide软件进行分析。根据选择分层悬臂墙加固的边坡稳定性分析结果，其抗滑安全系数(Fgs)为1.63>1.5，抗倾覆安全系数(Fgl)为2.44>2.0，抗倒塌承载力安全系数(F)为8.49>3.0，整体安全系数为1.56>1.5。与重力壁相比，移动和滚动的安全系数分别降低了1%和20%。墙体承载力提高了31%。悬臂墙安全系数的变化是由墙体尺寸的变化引起的，这些变化会影响结构的强度、持土力和墙体的工作原理类型。对于整体边坡稳定性分析，改变加固类型后，安全系数降低了5%，但表明边坡仍然稳定，因为悬臂墙类型相比重力墙具有较细的前墙尺寸，更能抵抗边坡侧向移动的风险。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Composite Journal

自引率

0.00%

发文量