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Development of Methodology to Include the Strength Contribution of Select Subgrade Materials in Pavement Structure

机译：选择路基材料在路面结构中强度贡献的方法论发展

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This study was conducted to develop a methodology to incorporate the structural contribution of working platforms, including those constructed with industrial by-products, into the design of flexible pavements. Structural contribution of the working platform was quantified in terms of a structural number or an effective roadbed modulus. Resilient modulus obtained from large-scale model experiments (LSME) conducted on several working platform materials (i.e., crushed stone (referred to as 'breaker run,' Grade 2 granular backfill (referred to as Grade 2), foundry slag, foundry sand, and bottom ash) were used in the analysis. Design charts are presented that show the structural number or the roadbed modulus as a function of type of material and thickness of the working platform. Another study was conducted to evaluate the structural contribution of geosynthetic-reinforced granular layers that are used as working platforms to the pavement structure. Based on the LSME and from the field Falling Weight Deflectometer (FWD) tests, the relationship between back-calculated elastic modulus and bulk stress was obtained. The improvement in layer coefficient is rather small for the nonwoven geotextile and drainage geocomposite (10%) and somewhat higher for the geogrid (40%) and for the woven geotextile (18%) in a 0.30-m thick granular working platform layer (treated as a subbase). The contribution of geosynthetics would be even less having a thicker subbase layer.

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作者
Edil, T. B.; Benson, C. H.; Kim, W. H.; Tanyu, B. F.;
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年度 2005
页码 p.1-84
总页数 84
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Flexible pavements; Subgroups; Strength; Structural analysis; Pavements; Design; Byproducts; Geosynthetics;

机译：灵活的路面;小组;强度;结构分析;路面;设计;副产品;土工合成材料;

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专利

1. Development of Methodology to Include Structural Contribution of Alternative Working Platforms in Pavement Structure [J] . Burak F. Tanyu, Woon-Hyung Kim, Tuncer B. Edil, Transportation Research Record . 2005,第1936期

机译：方法学的发展，在路面结构中包括替代性工作平台的结构性贡献
2. Calibration of test probes and experimental monitoring of changes in moisture of selected materials of subgrade structures [J] . Peter Dobe?, Libor I?volt, Martin Me?ár MATEC Web of Conferences . 2018,第1期

机译：测试探头的校准和路基结构所选材料的水分变化的实验监控
3. Strength Development of Geopolymer Composites Made from Red Mud-Fly Ash as a Subgrade Material in Road Construction [J] . K. Sarath Chandra, S. Krishnaiah, Narala Gangadhara Reddy, Journal of hazardous, toxic and radioactive waste . 2021,第1期

机译：用红色泥浆粉煤灰制成的地缘聚合物复合材料的力量发展，作为道路建设中的路基材料
4. Laboratory tests on the cleanliness of soil materials used as subgrades in pavement structures [C] . A. Athanasopoulou, G. Kollaros International conference on Computational Methods and Experiments in Materials Characterisation . 2011

机译：道路结构中用作路基的土壤材料清洁度的实验室测试
5. Evaluation of EPS geofoam as subbase/subgrade material in pavement structures. [D] . Huang, Xiaodong. 2006

机译：评估EPS泡沫土在路面结构中作为路基/路基材料的情况。
6. High volume fly ash mortar containing nano-calcium carbonate as a sustainable cementitious material: microstructure and strength development [O] . Huashan Yang, Yujun Che, Faguang Leng -1

机译：含有纳米碳酸钙作为可持续胶凝材料的大体积粉煤灰砂浆：微观结构和强度发展
7. Calibration of test probes and experimental monitoring of changes in moisture of selected materials of subgrade structures [O] . Peter Dobeš, Libor Ižvolt, Martin Mečár 2018

机译：校准试验探针及对路基结构材料水分变化的实验监测
8. Development of a Reliable Resilient Modulus Test for Subgrade and Non-GranularSubbase Materials for Use in Routine Pavement Design [R] . Pezo, R. F., Claros, G., Hudson, W. R., 1992

机译：用于常规路面设计的路基和非颗粒基材料的可靠弹性模量试验的开发

Development of Methodology to Include the Strength Contribution of Select Subgrade Materials in Pavement Structure

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