Stability Analysis of Soil Slope and the Design of Anti-Slide Piles during Unsteady Seepage: Fid-Bau Portal

Fachinformationsdienst BAUdigital

A platform for research: civil engineering, architecture and urbanism

Stability Analysis of Soil Slope and the Design of Anti-Slide Piles during Unsteady Seepage

Li, Yong-quan / Jing, Hang / Wang, Qing-Huan / Chen, Jun-Fu

Principle of calculation of water and earth pressures together by Limit Equilibrium Method (LEM) is introduced, and coupled deformation and seepage analysis is conducted by Finite Element Method (FEM). The response of one soil slope is simulated during rapid drawdown of water level by LEM and FEM. The results calculated show that seepage upraises the critical slip surfaces, and critical slip surfaces and safety factors by two ways are pretty close. To assure the safety of the slope, the design of anti-slide piles is carried out. Those ways used may provide reference to engineering practice.

Access

Check availability in my library

Order at Subito €

Page navigation

Document information

Export, share and cite

Stability Analysis of Soil Slope and the Design of Anti-Slide Piles during Unsteady Seepage

Li, Yong-quan / Jing, Hang / Wang, Qing-Huan / Chen, Jun-Fu

Principle of calculation of water and earth pressures together by Limit Equilibrium Method (LEM) is introduced, and coupled deformation and seepage analysis is conducted by Finite Element Method (FEM). The response of one soil slope is simulated during rapid drawdown of water level by LEM and FEM. The results calculated show that seepage upraises the critical slip surfaces, and critical slip surfaces and safety factors by two ways are pretty close. To assure the safety of the slope, the design of anti-slide piles is carried out. Those ways used may provide reference to engineering practice.

Stability Analysis of Soil Slope and the Design of Anti-Slide Piles during Unsteady Seepage

Li, Yong-quan / Jing, Hang / Wang, Qing-Huan / Chen, Jun-Fu

Principle of calculation of water and earth pressures together by Limit Equilibrium Method (LEM) is introduced, and coupled deformation and seepage analysis is conducted by Finite Element Method (FEM). The response of one soil slope is simulated during rapid drawdown of water level by LEM and FEM. The results calculated show that seepage upraises the critical slip surfaces, and critical slip surfaces and safety factors by two ways are pretty close. To assure the safety of the slope, the design of anti-slide piles is carried out. Those ways used may provide reference to engineering practice.

Access

Check availability in my library

Order at Subito €

Page navigation

Document information

Export, share and cite

Document information

Title:

Stability Analysis of Soil Slope and the Design of Anti-Slide Piles during Unsteady Seepage

Contributors:

Li, Yong-quan (author) / Jing, Hang (author) / Wang, Qing-Huan (author) / Chen, Jun-Fu (author)

Published in:

ICCAHE, International Conference on Civil, Architectural and Hydraulic Engineering, 2012 ; 689-693

Applied Mechanics and Materials ; 204-208

Publication date:

2012

Size:

5 Seiten

ISSN:

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.204-208.689

Type of media:

Conference paper

Type of material:

Print

Language:

English

Keywords:

Finite-Elemente-Methode , Einsickern , Wasserdruck , Wasserstand , Sicherheitsfaktor

Similar titles

Stability Analysis of Soil Slope and the Design of Anti-Slide Piles during Unsteady Seepage

Li, Yong Quan ;Jing, Hang ;Wang, Qing Huan | Trans Tech Publications | 2012

Stability Analysis of Soil Slope and the Design of Anti-Slide Piles during Unsteady Seepage

Li, Y.Q. / Jing, H. / Wang, Q.H. et al. | British Library Conference Proceedings | 2012

Stability Analysis of Cutting Slope Reinforced with Anti-Slide Piles by FEM

Li, R.-P. / American Society of Civil Engineers | British Library Conference Proceedings | 2009

Stability Analysis of Cutting Slope Reinforced with Anti-Slide Piles by FEM

Li, Ren-Ping | ASCE | 2009

Failure Analysis of a Highway Cut Slope with Anti-Slide Piles

Hongjie Chen / Guangcheng Zhang / Zheng Chang et al. | DOAJ | 2021

Free access