Journal Published Online: 19 September 2014
Volume 37, Issue 6

Experimental Investigation on the Coefficient of Lateral Earth Pressure at Rest of Silty Sands: Effect of Fines

CODEN: GTJODJ

Abstract

The coefficient of lateral earth pressure at rest (K0) is an important state variable of soils and is often estimated using Jaky's K0 equation, which is based on the internal friction angle (φ′). When fines are contained in sand, the effect of the fines content needs to be properly taken into account for the φ′-based estimation of K0, as the strength characteristics change because of changes in particle interlocking and contact conditions. In this study, an experimental testing program was established to measure and analyze K0 and its correlation to shear strength characteristics of sand–silt mixtures focusing on the effect of silt content. Thin-wall oedometer tests, triaxial tests, and other property tests were conducted to obtain K0 values and characterize the test materials. The values of K0 became higher as the relative density and silt content decreased, which was found because of decreasing particle interlocking and friction angle. Jaky's K0 equation using the peak strength tended to underestimate K0 at lower relative densities, whereas the K0 matched closely to measured values for higher relative densities. The K0 correlation based on the mobilized inter-particle strength was proposed and was applicable to various sand conditions. The calculated results using the proposed K0 correlation matched the measured results well, confirming the effectiveness of the proposed method.

Author Information

Lee, Junhwan
School of Civil and Environmental Engineering, Yonsei Univ., Seodaemun-gu, Seoul, KR
Lee, Dongyeol
School of Civil and Environmental Engineering, Yonsei Univ., Seodaemun-gu, Seoul, KR
Park, Donggyu
School of Civil and Environmental Engineering, Yonsei Univ., Seodaemun-gu, Seoul, KR
Pages: 14
Price: $25.00
Related
Reprints and Permissions
Reprints and copyright permissions can be requested through the
Copyright Clearance Center
Details
Stock #: GTJ20130204
ISSN: 0149-6115
DOI: 10.1520/GTJ20130204