A Field Study on the Arching Behavior of a Geogrid-Reinforced Floating Pile-Supported Embankment
•The soil arching effect of floating-pile pile-supported embankment structure will undergo multi-stage evolution.•The reduction of the pile-soil differential settlement will not lead to the weakening of the soil arching effect.•Differential settlement of pile-soil, adjacent pile space and subgrade h...
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| Published in | Transportation Geotechnics Vol. 37; p. 100795 |
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| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
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Elsevier Ltd
01.11.2022
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| Abstract | •The soil arching effect of floating-pile pile-supported embankment structure will undergo multi-stage evolution.•The reduction of the pile-soil differential settlement will not lead to the weakening of the soil arching effect.•Differential settlement of pile-soil, adjacent pile space and subgrade height jointly determine the development stage of soil arching.•The filling height corresponding to the minimum pile-soil settlement ratio is recommended as the critical filling height Hcri for the soil arching effect.
Geogrid-reinforced floating pile-supported (GRFPS) embankments are widely used in areas with moderately compressed soil. Due to the interaction among foundation soil, suspended piles and geogrids, the characteristics of stress and deformation are very complicated. In this paper, a field filling test of GRFPS embankments with two pile lengths (L = 8 m, 15 m), S1 and S2, was carried out in areas with moderately compressed soil. The evolution of soil arching, deformation of soil, piles and geogrids during the construction and equilibrium stage of embankments were monitored. Results show that with the increasing of filling height, there were three stages for the evolution soil arching: no soil arching, formation of soil arching, and stabilization of soil arching. When the pile-soil settlement ratio η reached its minimum value, soil arching formed, and the differential settlement between pile and soil at the top of pile cap (Δδ) was around 1% of the net pile spacing (s-d, where s is the pile spacing, d is the diameter of pile cap). The corresponding critical filling heights (Hcri) were 1.4 (s - d) and 3(s - d) for S1 and S2, respectively. The strain of geogrid mainly developed during the initial stage of filling with the development of Δδ. When the filling height was larger than 5.2 m, the magnitude of soil arching was larger for the embankment with longer pile length (S2). Meanwhile, for S2, the soil arching coefficient Cc gradually transited from friction piles into the end-bearing piles with the increasing filing height of the embankment. The strain of the geogrid mainly occurs in the initial stage of filling (t < 75 d), mainly due to the differential settlement between the pile and soil. After that, the overall settlement of the composite foundation also slightly caused the strain of the geogrid. Finally, three states of soil arching effects of the GRFPS embankment and the evolution characteristics of each index under different states are proposed. This case study provides an enhanced understanding of the performance GRFPS embankment. |
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| AbstractList | •The soil arching effect of floating-pile pile-supported embankment structure will undergo multi-stage evolution.•The reduction of the pile-soil differential settlement will not lead to the weakening of the soil arching effect.•Differential settlement of pile-soil, adjacent pile space and subgrade height jointly determine the development stage of soil arching.•The filling height corresponding to the minimum pile-soil settlement ratio is recommended as the critical filling height Hcri for the soil arching effect.
Geogrid-reinforced floating pile-supported (GRFPS) embankments are widely used in areas with moderately compressed soil. Due to the interaction among foundation soil, suspended piles and geogrids, the characteristics of stress and deformation are very complicated. In this paper, a field filling test of GRFPS embankments with two pile lengths (L = 8 m, 15 m), S1 and S2, was carried out in areas with moderately compressed soil. The evolution of soil arching, deformation of soil, piles and geogrids during the construction and equilibrium stage of embankments were monitored. Results show that with the increasing of filling height, there were three stages for the evolution soil arching: no soil arching, formation of soil arching, and stabilization of soil arching. When the pile-soil settlement ratio η reached its minimum value, soil arching formed, and the differential settlement between pile and soil at the top of pile cap (Δδ) was around 1% of the net pile spacing (s-d, where s is the pile spacing, d is the diameter of pile cap). The corresponding critical filling heights (Hcri) were 1.4 (s - d) and 3(s - d) for S1 and S2, respectively. The strain of geogrid mainly developed during the initial stage of filling with the development of Δδ. When the filling height was larger than 5.2 m, the magnitude of soil arching was larger for the embankment with longer pile length (S2). Meanwhile, for S2, the soil arching coefficient Cc gradually transited from friction piles into the end-bearing piles with the increasing filing height of the embankment. The strain of the geogrid mainly occurs in the initial stage of filling (t < 75 d), mainly due to the differential settlement between the pile and soil. After that, the overall settlement of the composite foundation also slightly caused the strain of the geogrid. Finally, three states of soil arching effects of the GRFPS embankment and the evolution characteristics of each index under different states are proposed. This case study provides an enhanced understanding of the performance GRFPS embankment. |
| ArticleNumber | 100795 |
| Author | Sun, Danxi Pan, Gaofeng Feng, Yan Yuan, Shengyang Wang, Yibo Liu, Xianfeng Jiang, Guanlu |
| Author_xml | – sequence: 1 givenname: Gaofeng surname: Pan fullname: Pan, Gaofeng organization: School of Civil Engineering, Southwest Jiaotong University, Chengdu, Sichuan 610031, China – sequence: 2 givenname: Xianfeng surname: Liu fullname: Liu, Xianfeng organization: School of Civil Engineering, Southwest Jiaotong University, Chengdu, Sichuan 610031, China – sequence: 3 givenname: Shengyang surname: Yuan fullname: Yuan, Shengyang organization: School of Civil Engineering, Southwest Jiaotong University, Chengdu, Sichuan 610031, China – sequence: 4 givenname: Yibo surname: Wang fullname: Wang, Yibo organization: School of Civil Engineering, Southwest Jiaotong University, Chengdu, Sichuan 610031, China – sequence: 5 givenname: Danxi surname: Sun fullname: Sun, Danxi organization: Department of Civil and Environmental Engineering, Waseda University, Tokyo 169-8555, Japan – sequence: 6 givenname: Yan surname: Feng fullname: Feng, Yan organization: Key Laboratory for Traffic and Transportation Security of Jiangsu Province, Huaiyin Institute of Technology, Huai'an, Jiangsu 223003, China – sequence: 7 givenname: Guanlu surname: Jiang fullname: Jiang, Guanlu organization: School of Civil Engineering, Southwest Jiaotong University, Chengdu, Sichuan 610031, China |
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| Cites_doi | 10.1061/(ASCE)0733-9410(1994)120:11(1917) 10.1680/jgein.17.00032 10.1007/s11069-017-2897-0 10.1016/j.geotexmem.2013.07.005 10.1016/j.geotexmem.2008.05.002 10.1061/(ASCE)GT.1943-5606.0000561 10.1139/T08-003 10.1016/j.geotexmem.2018.12.006 10.1061/(ASCE)1090-0241(2007)133:3(295) 10.1016/j.geotexmem.2020.11.001 10.1016/j.geotexmem.2011.11.002 10.1680/jgein.16.00002 10.1061/(ASCE)1090-0241(2002)128:1(44) 10.1680/jgein.15.00038 10.1007/s13369-021-05587-7 10.1016/j.sandf.2021.07.002 10.1016/j.geotexmem.2017.06.006 10.1016/j.geotexmem.2012.12.001 10.1016/j.geotexmem.2016.11.002 10.1061/(ASCE)1090-0241(2007)133:5(493) 10.1016/j.sandf.2014.12.002 10.1080/19386362.2017.1368139 10.1016/0266-1144(90)90004-V 10.1061/(ASCE)GM.1943-5622.0001025 |
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| Keywords | Field test Subgrade engineering Soil arching effect Geogrid-reinforced floating pile-supported embankment Load transfer |
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| Snippet | •The soil arching effect of floating-pile pile-supported embankment structure will undergo multi-stage evolution.•The reduction of the pile-soil differential... |
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| SubjectTerms | Field test Geogrid-reinforced floating pile-supported embankment Load transfer Soil arching effect Subgrade engineering |
| Title | A Field Study on the Arching Behavior of a Geogrid-Reinforced Floating Pile-Supported Embankment |
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