Title: Failure mechanism and bearing capacity of shallow foundation on poorly cemented sandstone
Authors: Chang, J. -C.
Liao, J. -J.
Pan, Y. -W.
土木工程學系
Department of Civil Engineering
Keywords: poorly cemented sandstone;model bearing test;ultimate bearing capacity;failure mechanism
Issue Date: 1-Sep-2008
Abstract: This paper aims to investigate the failure mechanism of a shallow foundation on poorly cemented sandstone and to propose an upper bound solution for the bearing capacity of the foundation. A series of laboratory material and load-bearing model tests with specimens made of artificial rock mimic undisturbed natural poorly cemented sandstone. Based on a series of load-bearing model tests, bearing behavior and progressive failure mechanisms are investigated. It was found that the bearing behavior on poorly cemented sandstone is distinct from the cases on hard rock or on soil, and exhibits both plasticity and brittle characteristics. It is noted that the bearing capacity formulas for a shallow foundation commonly used for soil or hard rock are not appropriate for the case of poorly cemented soft sandstone. Based on the observed failure mechanism, a simplified plastic collapse mechanism is proposed and an upper-bound solution on the basis of a multi-block translation mechanism is formulated. It is shown that the upper bound solution agrees well with the experimental bearing capacity as long as a proper non-associated flow rule is adopted.
URI: http://hdl.handle.net/11536/8438
ISSN: 1727-7191
Journal: JOURNAL OF MECHANICS
Volume: 24
Issue: 3
Begin Page: 285
End Page: 296
Appears in Collections:Articles