Design and construction of lightweight EPS geofoam embedded geomaterial embankment system for control of settlements

Puppala Anand J.; Ruttanaporamakul Pinit; Congress Surya Sarat Chandra

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Design and construction of lightweight EPS geofoam embedded geomaterial embankment system for control of settlements

机译：用于沉降控制的轻质EPS土工泡沫嵌入式土工路堤设计与施工

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This paper presents a research study on a bridge site located along US highway 67 over SH 174 in Cleburne, Texas, where bridge approach slabs have experienced more than 0.4 m (17 in.) of settlement within a span of 16 years after construction. Many treatment methods attempted to mitigate this problem had proven to be ineffective. As part of novel rehabilitation works, the top of existing fill soil on the embankment was replaced with lightweight expanded polystyrene (EPS) geofoam blocks to alleviate the approach slab settlements. This paper describes initial design and construction details of the rehabilitation works performed on the embankment system along with a focus on the early performance details. Field monitoring studies were conducted for almost three years to study the bump/settlements under the EPS geofoam embankment system. Short term measured settlement data was analyzed with hyperbolic model to predict the long term settlements. Numerical finite element studies attempted in this study showed that settlements could be reasonably predicted by modeling these geofoam embankments. Based on the monitoring and modeling studies, the effectiveness of utilizing EPS geofoam as an embankment fill material was addressed to mitigate the differential settlements under a bridge approach slab.

机译：本文介绍了对位于德克萨斯州克莱伯恩（Cleburne）的SH 174上沿67号美国高速公路的桥梁工地的研究，该桥梁进近平板在施工后16年内经历了超过0.4 m（17 in。）的沉降。已证明许多试图减轻该问题的治疗方法无效。作为新颖的修复工程的一部分，路堤上现有的填充土顶部被轻质膨胀聚苯乙烯（EPS）土工泡沫块所取代，以减轻引路板的沉降。本文描述了在堤防系统上进行的修复工作的初始设计和施工细节，并着重于早期的性能细节。进行了近三年的现场监控研究，以研究EPS泡沫塑料堤防系统下的颠簸/沉降。用双曲线模型分析短期测得的沉降数据，以预测长期沉降。本研究尝试的数值有限元研究表明，可以通过对这些土工泡沫路堤进行建模来合理地预测沉降。基于监测和建模研究，提出了利用EPS泡沫土作为路堤填充材料来减轻桥梁引桥下差异沉降的有效性。

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《Geotextiles and Geomembranes》 |2019年第3期|295-305|共11页
作者
Puppala Anand J.; Ruttanaporamakul Pinit; Congress Surya Sarat Chandra;
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作者单位

Univ Texas Arlington, Dept Civil Engn, Box 19308, Arlington, TX 76019 USA;

Univ Texas Arlington, Dept Civil Engn, Box 19308, Arlington, TX 76019 USA;

Univ Texas Arlington, Dept Civil Engn, Box 19308, Arlington, TX 76019 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Geosynthetics; Bump; Bridge approach; Expanded polystyrene (EPS) geofoam; Embankment settlements; Finite element analysis;

机译：土工合成;凹凸;桥梁方法;膨胀聚苯乙烯（EPS）泡沫;路堤沉降;有限元分析;
入库时间 2022-08-18 04:22:21

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4. CASE STUDY OF EPS GEOFOAM LIGHTWEIGHT FILL FOR SETTLEMENT CONTROL AT BRIDGE APPROACH EMBANKMENT [C] . Christopher L. Snow, Charles R. Nickerson Conference on Geotechnical Engineering for Transportation Projects v.1(Geo-Trans 2004); 20040727-20040731; Los Angeles,CA; US . 2004

机译：EPS泡沫轻质填料在桥梁进近路堤沉降控制中的案例研究
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Design and construction of lightweight EPS geofoam embedded geomaterial embankment system for control of settlements

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