Soil arching and load transfer mechanism for slope stabilized with piles

Mehmet Rifat Kahyaoglu Info

Author Name	Affiliation
Mehmet Rifat Kahyaoglu	Department of Civil Engineering, Mugla University, Kotekli Campus, 48000, Merkez-Mugla, Turkey

Okan Onal Info

Author Name	Affiliation
Okan Onal	Department of Civil Engineering, Mugla University, Kotekli Campus, 48000, Merkez-Mugla, Turkey

Gökhan Imançlı Info

Author Name	Affiliation
Gökhan Imançlı	Department of Civil Engineering, Mugla University, Kotekli Campus, 48000, Merkez-Mugla, Turkey

Gürkan Ozden Info

Author Name	Affiliation
Gürkan Ozden	Department of Civil Engineering, Mugla University, Kotekli Campus, 48000, Merkez-Mugla, Turkey

Arif S. Kayalar Info

Author Name	Affiliation
Arif S. Kayalar	Department of Civil Engineering, Mugla University, Kotekli Campus, 48000, Merkez-Mugla, Turkey

Abstract

In this study, the effects of pile spacing and pile head fixity on the moment and lateral soil pressure distribution along slope stabilizing piles are investigated. A slice from an infinitely long row of piles with fixed pile tip in an inclined sand bed was simulated with an experimental test setup. Surficial soil displacements were monitored and relative displacements between soil particles were determined by recording time-lapse images during the test in order to observe the soil arching mechanism on the soil surface. The load transfer process from moving soil to piles and behavior of soil around piles were observed and evaluated by the different test setups. It was observed that decrease in pile spacing causes an increase of load carried per pile. This behavior, which was significantly influenced by the pile head boundary conditions, can only be explained by soil arching that existed between the piles along their lengths.

Keywords:

slope stabilizing piles, pile spacing, pile head fixity, soil displacement monitoring, soil arching