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Bulletin of Engineering Geology and the Environment
Erschienen in: Bulletin of Engineering Geology and the Environment 6/2020

05.02.2020 | Original Paper

Model test of the combined subgrade treatment by hydraulic sand fills and soil-cement mixing piles

verfasst von: Yang Sun, Jiu Cheng, Yiwei Li, Qi Chen, Wei Zhang, Guojian Shao

Erschienen in: Bulletin of Engineering Geology and the Environment | Ausgabe 6/2020

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Abstract

Background

The combined technology of hydraulic sand fills and soil-cement mixing piles has been widely applied to urban roads near rivers. Most of the previous studies were limited to the performance and strength of the soil-cement mixing pile and the effect of strengthening the foundation, which ignored the influence of pile layout on soil property parameters.

Model test

Through laboratory model tests, various working conditions of hydraulic sand placed on a composite foundation were simulated, and the effects of rolling path, standing time, rolling machinery, drainage scheme, pile spacing and pile diameter on stress distribution and consolidation drainage of composite foundation under single variable were investigated in this paper.

Results and discussion

The test results indicated that the increase in pile diameter can significantly increase the pile-soil pressure ratio but easily causes an excessively high porewater pressure during the rolling of the subgrade. The increase in pile spacing reduces the pile-soil pressure ratio, promotes the drainage efficiency and restricts the pile group effect. Smooth-wheel rolling has a large influence on the stress path and leads to the soil arching effect in the foundation.

Conclusion

Reasonable design of pile diameter, pile spacing and proper selection of rolling method are of great significance to improve the efficiency of subgrade reinforcement and reduce postconstruction settlement.
Vorheriger Artikel Hydraulic conductivity changes in compacted clayey barriers due to temperature variations in landfill top covers
Nächster Artikel Characteristics and main causes of earth fissures in northeastern Beijing Plain, China

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Literatur
Benmebarek N, Benmebarek S, Kastner R (2005) Numerical studies of seepage failure of sand within a cofferdam. Comput Geotech 32(4):264–273CrossRef
Chai JC, Liu SY, Du YJ (2002) Field properties and settlement calculation of soil-cement column improved soft subsoil-a case study. Lowl Technol Int 4(2):51–58
Chang L, Han SS (2015) Sand blowing technology for subgrade in alpine region. Sci Technol Innov Appl 2015(09):149–150
Chen L, Liu SY, Hong ZS (2007) Study of consolidation calculation of soft ground improved by dry jet mixing combined with vertical drain method (in Chinese). Chin J Geotech Eng 2007(02):198–203
Flora A, Modoni G, Lirer S, Croce P (2013) The diameter of single, double and triple fluid jet grouting columns: prediction method and field trial results. Géotechnique 63(11):934–945CrossRef
Han J, Gabr MA (2002) Numerical analysis of geosynthetic-reinforced and pile-supported earth platforms over soft soil. J Geotech Geoenviron Eng 128(1):44–53CrossRef
Ho CE (2009) Analysis of deep jet grouting field trial in clay. In: Contemporary topics in ground modification, problem soils, and geo-support. ASCE, Florida, pp 233–240
Horpibulsuk S, Miura N, Koga H, Nagaraj TS (2004) Analysis of strength development in deep mixing: a field study. Proc Inst Civ Eng Ground Improv 8(2):59–68CrossRef
Jamsawang P, Voottipruex P, Boathong P, Mairaing W, Horpibulsuk S (2015) Three-dimensional numerical investigation on lateral movement and factor of safety of slopes stabilized with deep cement mixing column rows. Eng Geol 188:159–167CrossRef
Jia K (2003) Study on roadbed filling construction technology (in Chinese). Dissertation, University of Chang’an
Kitazume M, Okano K, Miyajima S (2000) Centrifuge model tests on failure envelope of column type deep mixing method improved ground. Soils Found 40(4):43–55CrossRef
Liu ZH, Wang X (2014) Numerical simulation on soil arching effect of piled low embankment (in Chinese). J Shenzhen U: Sci Eng Ed 31(05):529–536CrossRef
Modoni G, Croce P, Mongiovi L (2006) Theoretical modelling of jet grouting. Géotechnique 56(5):335–347CrossRef
Phutthananon C, Jongpradist P, Yensri P, Jamsawang P (2018) Dependence of ultimate bearing capacity and failure behavior of T-shaped deep cement mixing piles on enlarged cap shape and pile strength. Comput Geotech 97:27–41CrossRef
Shen SL, Han J, Huang XC, Du SJ (2003) Laboratory studies on property changes in surrounding clays due to installation of deep mixing columns. Mar Georesour Geotechnol 21(1):15–35CrossRef
Shen SL, Han J, Du YJ (2008) Deep mixing induced property changes in surrounding sensitive marine clays. J Geotech Geoenviron Eng 134(6):845–854CrossRef
Shen SL, Miura N, Koga H (2013a) Interaction mechanism between deep mixing column and surrounding clay during installation. Can Geotech J 40(2):293–307CrossRef
Shen SL, Wang ZF, Yang J, Ho CE (2013b) Generalized approach for prediction of jet grout column diameter. J Geotech Geoenviron Eng 139(12):2060–2069CrossRef
Shen SL, Wu HN, Cui YJ, Yin ZY (2014) Long-term settlement behavior of metro tunnels in the soft deposits of Shanghai. Tunn Undergr Sp Tech 40:309–323CrossRef
Shen SL, Cui QL, Ho CE, Xu YS (2016) Ground response to multiple parallel microtunneling operations in cemented silty clay and sand. J Geotech Geoenviron Eng 142(5):04016001CrossRef
Shen SL, Wang ZF, Cheng WC (2017) Estimation of lateral displacement induced by jet grouting in clayey soils. Géotechnique 67(7):621–630CrossRef
Shibazaki M (2003) State of practice of jet grouting. In: Johnsen LF, Bruce DA and Byle MJ (eds) Grouting 2003: grouting and ground treatment. American Society of Civil Engineers (ASCE) Press, Reston, pp 198–217
Song GX, Guo ZJ, Liu JZ (2002) Numerical analysis of dry jet mixing pile (DJMP) composite foundation (in Chinese). Rock Soil Mech 23(4):494–497
Suddeepong A, Intra A, Horpibulsuk S, Suksiripattanapong C, Arulrajah A, Shen JS (2018) Durability against wetting-drying cycles for cement-stabilized reclaimed asphalt pavement blended with crushed rock. Soils Found 58(2):333–343CrossRef
Sun Y, Wu F, Sun WJ, Li HM, Shao GJ (2019) Two underground pedestrian passages using pipe jacking: case study. J Geotech Geoenviron Eng 145(2):05018004CrossRef
Suzuki, Y (1982) Deep chemical mixing method using cement as hardening agent. In: Symposium on Recent Development in Ground Improvement Techniques, Bangkok
Tan TS, Goh TL, Yong KY (2002) Properties of Singapore marine clays improved by cement mixing. Geotech Test J 25(4):422–433
Wan XN, Li JF, He Q, Xiang WH, Wu HL (2003) Fluxes of water & sand in the middle and lower reaches of the Yangtze river (in Chinese). Sediment Res 4:29–35
Wang YG, Liu XX (2018) Technology dealing with the soft soil foundation. In: IOP Conference Series: Earth and Environmental Science, vol.170, Ordos, pp 1–6
Wang ZF, Shen SL, Yang J (2012) Estimation of the diameter of jet-grouted column based on turbulent kinematic flow theory. In: Johnsen LF, Bruce DA, and Byle MJ (eds) Grouting and deep mixing 2012. American Society of Civil Engineers (ASCE) Press, Reston, pp 2044-2051
Wang ZF, Shen JS, Cheng WC (2018) Simple method to predict ground displacements caused by installing horizontal jet-grouting columns. Math Probl Eng Eng 2018:1-11
Wonglert A, Jongpradist P (2015) Impact of reinforced core on performance and failure behavior of stiffened deep cement mixing piles. Comput Geotech 69:93–104CrossRef
Xu GH, Gao H, Wang ZR (2005) Analysis of continuous dynamic monitoring on vibrating compaction process of graded broken stone (in Chinese). Chin J Geotech Eng 27(11):1270–1272
Yang JZ, Tan YG (2015) Research on dynamic deformation characteristics of fine- grained soil fill under strong vibration rolling of heavy roller (in Chinese). J Railw Sci Eng 12(02):282–290
Yuan Y (2014) Study on soil arching effect of anti-slide pile based on orthogonal test (in Chinese). In: proceedings of the 15th mechanics conference of seven northern provinces, Datong
Yuan Y, Shen SL, Wang ZF, Wu HN (2016) Automatic pressure-control equipment for horizontal jet-grouting. Autom Constr 69:11–20CrossRef
Zhang SN, Bian SZ, Wang YP (1992) Discussion on settlement calculation of deep cement mixing pile composite foundation (in Chinese). In: Proceedings of the third foundation treatment symposium, Qinghuangdao, pp 106–109
Metadaten
Titel
Model test of the combined subgrade treatment by hydraulic sand fills and soil-cement mixing piles
verfasst von
Yang Sun
Jiu Cheng
Yiwei Li
Qi Chen
Wei Zhang
Guojian Shao
Publikationsdatum
05.02.2020
Verlag
Springer Berlin Heidelberg
Erschienen in
Bulletin of Engineering Geology and the Environment / Ausgabe 6/2020
Print ISSN: 1435-9529
Elektronische ISSN: 1435-9537
DOI
https://doi.org/10.1007/s10064-020-01735-9

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