Abstract
This paper aims to provide a new approach to predict the friction resistance of slurry pipe jacking. Friction force usually constitutes the main component of jacking force. It can be calculated by multiplying an effective friction coefficient and the normal force acting on the external surface of the pipe. This effective friction coefficient is introduced to reflect the effect of contact state of pipe soil slurry, highly affected by the effect of lubrication and the interaction of pipe soil slurry. Firstly, by making some reasonable assumptions, the analytical formula of the effective friction coefficient is obtained, in which the critical quantity of contact (contact angle or width) is calculated by using the Persson contact model. Then, the analytical formula of normal force of circular pipeline is derived, which needs to determine the vertical soil pressure. To allow for a better prediction, three typical silo models are introduced and compared. Finally, a method for calculating the friction resistance of slurry pipe jacking is established. The main difference from the existing method is that this method takes into full consideration the influence of lubrication, soil properties (such as internal friction angle, cohesion, and void ratio), and design parameters (such as buried depth, overcut, and pipe diameter). By using reasonable silo models, the predicted results are in good agreement with the measured values collected from 10 in situ cases, which proves that the new approach can provide accuracy prediction of friction resistance for slurry pipe jacking with various soil conditions, and it may help for better future design and less construction costs.
Highlights
Pipe jacking is defined as a trenchless excavation technique which employs hydraulic jacks to push specially made pipes through the ground behind a jacking machine, from a drive shaft to a reception shaft
The jacking force is a critical factor that determines the thickness of pipe and reaction wall, type of jacking machine, and lubricant requirements, which is directly related to the structural safety and construction cost
Friction resistance is the main component of jacking force
Summary
Pipe jacking is defined as a trenchless excavation technique which employs hydraulic jacks to push specially made pipes through the ground behind a jacking machine, from a drive shaft to a reception shaft. The main calculation methods of pipe jacking friction resistance can be divided into the following three categories: First, evaluating from construction experiences; for example, China standard GB50268 suggests the average friction resistance to be 3–5 kPa for slurry pipe jacking. Erefore, based on the basic principle of tribology and together with the existing silo models and Persson contact model, a new method suitable for calculating the friction resistance of slurry pipe jacking is established in this paper. It can reflect the lubrication effect of slurry, and comprehensively reflect the influence of redial clearance (or overcut), pipe diameter, soil void ratio, etc., on friction resistance
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
