Education, Science, Technology, Innovation and Life
Open Access
Sign In

Study on soft soil foundation treatment technology in industrial building construction

Download as PDF

DOI: 10.23977/jceup.2023.050407 | Downloads: 34 | Views: 389

Author(s)

Chen Mao 1

Affiliation(s)

1 China Energy Longyuan Environmental Protection Co., Ltd., Beijing, China

Corresponding Author

Chen Mao

ABSTRACT

Because of its unstable structure, SSF (soft soil foundation) will appear obvious deformation after being subjected to external force, which will cause the foundation settlement of buildings and the overall life of buildings will be affected to some extent. With a large number of construction projects, land resources are increasingly scarce, and a large number of SSF will be used as construction land foundations. The base material in soft soil has many physical and chemical properties and active properties different from other soft soil materials. Under the action of strong external pressure, the SSF of high-speed tunnel is easy to bend. Because there are many defects in SSF, there are great security risks in industrial buildings, so it is necessary to use SSF treatment technology to change the problems in SSF during construction. By analyzing the characteristics of SSF, this paper focuses on the importance of SSF treatment and discusses the application of common foundation treatment technology in industrial building construction.

KEYWORDS

Soft soil foundation, Industrial building, Treatment technology

CITE THIS PAPER

Chen Mao, Study on soft soil foundation treatment technology in industrial building construction. Journal of Civil Engineering and Urban Planning (2023) Vol. 5: 56-61. DOI: http://dx.doi.org/10.23977/jceup.2023.050407.

REFERENCES

[1] Yin C, Wang M. Stability control and consolidation sedimentation analysis on soft soil foundation subjected to surcharge preloading treatment [J]. Acta Technica CSAV (Ceskoslovensk Akademie Ved), 2016, 61(4): 95-108.
[2] Marchiori L, Studart A, Albuquerque A, et al. Geotechnical Characterization of Water Treatment Sludge for Liner Material Production and Soft Soil Reinforcement [J]. Materials Science Forum, 2021(1046): 1046.
[3] Ye G B, Rao F R, Zhang Z. Rheological Consolidation of Partially Penetrated Deep Mixed Column-Reinforced Soft Soil under Rigid Foundation [J]. International journal of geomechanics, 2022(5): 22.
[4] Zhuang H, Fu J, Xu Y, et al. Earthquake responses of a base-isolated structure on a multi-layered soft soil foundation by using shaking table tests [J]. Engineering Structures, 2019, 179(15): 79-91.
[5] Jafer H, Atherton W, Sadique M, et al. Stabilisation of soft soil using binary blending of high calcium fly ash and palm oil fuel ash [J]. Applied Clay Science, 2018, 152(10): 323-332.
[6] Y, Liu S, et al. Laboratory modelling of T-shaped soil-cement column for soft ground treatment under embankment [J]. Geotechnique, 2016, 66(1): 85-89.
[7] Schaffer M, Kr, Ger K F, N, Dler K, et al. Influence of a compost layer on the attenuation of 28 selected organic micropollutants under realistic soil aquifer treatment conditions: Insights from a large scale column experiment. [J]. Water Research, 2015, 74(1): 110-121.
[8] Akasha F, Heather S, Erin T. Impacts of Mastication: Soil Seed Bank Responses to a Forest Thinning Treatment in Three Colorado (USA) Conifer Forest Types [J]. Forests, 2015, 6(12): 3060-3074.
[9] Wang X. Index Analysis and Parameter Inversion before and after Soft Soil Ground Treatment in High-speed Railway [J]. Journal of Railway Engineering Society, 2018, 35(12): 15-19.
[10] Xu Y U, Zhuang H Y, Chen G X, et al. Prediction method research of seismic response and seismic isolation effect of isolated structure on soft soil foundation [J]. Zhendong Gongcheng Xuebao/Journal of Vibration Engineering, 2017, 30(5): 817-826.

All published work is licensed under a Creative Commons Attribution 4.0 International License.

Copyright © 2016 - 2031 Clausius Scientific Press Inc. All Rights Reserved.