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Abstract

In this article, the factors affecting the friction coefficient between a box culvert’s sidewalls and surrounding soil and the box culvert’s mechanical behavior during the jacking process in construction were studied with an engineering example in Guangdong province, China. First, the principal factors that affected changes in the friction coefficient and its law were analyzed with self-development model testing. Second, in combination with 3D finite element simulation, both the stress and strain laws of a box culvert’s different parts were studied by considering changes in jacking distance, soil thickness, and drag reduction material. The results showed that with increasing jacking distance, both the curves of stress and strain on the roof and floor with jacking distance exhibited an “armchair” shape, while the web had a “trapezoid” shape as the box culvert was jacked into the subgrade. Both the thickness and characteristics of the cover soil on top of the box culvert had an essential influence on the stress and strain values of the box culvert’s structure. Water content’s effect on the friction coefficient decreased gradually when the water content exceeded its plastic limit. The optimal ratio of cement slurry to soil was approximately 1:4 in the project. It is also suggested that a paraffin and engine oil mixture can be used as a drag reduction material when jacking a box culvert.

Keywords

box culvert mechanical characteristics model test numerical simulation road engineering

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References

Acharya

Han

Parsons

(2016a) Numerical analysis of low-fill box culvert under rigid pavement subjected to static traffic loading. International Journal of Geomechanics 16(5): 04016016.

Acharya

Han

Brennan

, et al. (2016b) Structural response of a low-fill box culvert under static and traffic loading. Journal of Performance of Constructed Facilities 30: 04014184.

Acharya

Han

Parsons

, et al. (2016c) Field testing and numerical modeling of a low-fill box culvert under a flexible pavement subjected to traffic loading. Geomechanics & Engineering 11(5): 625–638.

Bennett

Wood

Drumm

, et al. (2005) Vertical loads on concrete box culverts under high embankments. Journal of Bridge Engineering 10(10): 643–649.

Boulanger

Seed

Baird

, et al. (1989) Measurements and analyses of deformed flexible box culverts. Transportation Research Record 1231(1989): 25–35.

Dasgupta

Sengupta

(1991) Large-scale model test on square box culvert backfilled with sand. Journal of Geotechnical Engineering 117(1): 156–161.

Feng

Ren

Xie

, et al. (2007) Simulation experiment about oversize box culvert jacked into highway subgrade. Journal of Traffic & Transportation Engineering 7(4): 74–78.

Frederick

Tarhini

(1989) Model analysis of box culverts subjected to highway loading. Experimental Mechanics 29(2): 183–187.

Garg

Abolmaali

(2006) Shear behavior of small span single and double precast reinforced concrete box culverts. In: Proceedings of the pipeline division specialty conference, Chicago, IL, 30 July–2 August 2006, pp. 1–12. Reston, VA: American Society of Civil Engineers.

10.

Garg

Abolmaali

Fernandez

(2007) Experimental investigation of shear capacity of precast reinforced concrete box culverts. Journal of Bridge Engineering 12(4): 511–517.

11.

Guo

(2014) Research on shallow buried soil super-long box culvert jacking key technology of highway. Master’s Thesis, Chang’an University, Xi’an, China. (in Chinese)

12.

Guo

Feng

(2018) Analysis on mechanical characteristics of soil-covered and over-long box culvert and construction scheme of jacking. Journal of Guangxi University 43(1): 340–348.

13.

Guo

Wang

Hong

(2017) Numerical analysis on mechanical characteristics of jacking device for shallow soil-covered and over-long box culvert. Journal of Highway and Transportation Research and Development 34(6): 94–98.

14.

Hong

Feng

Guo

, et al. (2015) Experiment analysis on friction coefficient of oversize box culvert jacked into highway subgrade. Chinese Journal of Underground Space and Engineering 11(4): 952–956.

15.

Huang

Zhang

(2009) Research on soil displacement regulations with jacking method for super-large shallow-buried box culvert. Rock & Soil Mechanics 30(2): 387–392.

16.

Jing

(2008) Research on slurry interface formation mechanisms and effection of the large section box culvert construction. Master’s Thesis, Xi’an University of Technology, Xi’an, China. (in Chinese)

17.

Kang

Parker

Kang

, et al. (2008) Effects of frictional forces acting on sidewalls of buried box culverts. International Journal for Numerical & Analytical Methods in Geomechanics 32(3): 289–306.

18.

Katona

(1983) A simple contact-friction interface element with applications to buried culverts. Journal for Numerical & Analytical Methods in Geomechanics 7(3): 371–384.

19.

Kim

Chai

(2006) Closure to “design loading on deeply buried box culverts” by Kim

Kyungsik

Yoo

Chai H.

Journal of Geotechnical & Geoenvironmental Engineering 132(8): 1108–1108.

20.

Kunieda

Zhu

Nakajima

, et al. (2014) Long-term serviceability and risk assessment of shallow underground RC culverts and tunnels. In: Proceedings of the 1st ageing of materials & structures conference, Delft, 26–28 May 2014, pp. 376–383. GA Delft: DCMat Ageung Centre.

21.

Laupa

Siess

Newmark

(1954) The flexural and shear strength of reinforced concrete box culverts. Technical Report, University of Illinois, Urbana, IL, 9 October. Available at: https://www.ideals.illinois.edu/bitstream/handle/2142/13961/SRS-072.pdf?sequence=2&isAllowed=y

22.

Maekawa

Zhu

Chijiwa

, et al. (2016) Mechanism of long-term excessive deformation and delayed shear failure of underground RC box culverts. Journal of Advanced Concrete Technology 14(5): 183–204.

23.

Huang

Zhang

, et al. (2007) Research of the soil movement by jacking construction of a super-large shallow buried box-culvert. In: Geological engineering: proceedings of the 1st international conference, Wuhan, China, 5–7 July 2007. pp. 136–144. New York: American Society of Mechanical Engineers.

24.

Weng

Xie

Liu

(2008) Centrifugal model of arch action of granular earth fills of culverts under high embankment. Journal of Chang’an University 28(2): 31–35.

25.

Xiao

Xia

Xiang-Yang

, et al. (2005) Experimental study on coefficient of friction between a box culvert and mixture composed of thixotropic slurry and clay or steel pipe during culvert being pushed by pipe-roof. Chinese Journal of Rock Mechanics & Engineering 24(15): 2746–2750.

26.

Yee

Bentz

Collins

(2004) Shear Behaviour of Concrete Box Culverts: A Preliminary Study. Toronto, ON, Canada: University of Toronto.

27.

You

Xia

, et al. (2001) Finite element analysis of concrete pavements over culverts. International Journal of Geomechanics 1(3): 337–350.

28.

Zhang

Yao

Zheng

, et al. (2015) Centrifugal model test and numerical simulation of vertical earth pressure on soft foundation box culvert. Journal of Central South University 22(9): 3556–3563.

Friction coefficient and stress–strain on a soil-buried box culvert jacking in highway construction

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