Field tests suggest that the T-bar factor may vary over a large range for
calcareous soils. As the T-bar penetrates very deep into soft soil, a full
flow-round mechanism is formed around the T-bar. Examining the
stress states around this mechanism suggests that soil elements are
subjected to a varying stress state, and the element behaviour represents
a combination of triaxial compression, simple shear, and triaxial
extension conditions. This paper reports results of T-bar penetrometer
tests performed at an elevated gravity of 150-g (where g is earth’s
gravity) in a geotechnical centrifuge on a calcareous silty sediment
collected from the North West Shelf of Australia. Once the centrifuge
tests were completed, a tube sample was cored from the centrifuge
strongbox. Two specimens were prepared from two reference depths,
and undrained monotonic simple shear tests were carried out. The
undrained shear strengths obtained from the simple shear tests were
used to back analyse the T-bar bearing factor (NT-bar). A mean T-bar
factor of 9.92 was found for the calcareous silt tested. A threedimensional
large deformation finite element analysis was conducted to
find out the T-bar factor in an ideal soil, showing the potential for
undertaking further parametric analyses using an appropriate
constitutive model to develop a robust interpretation framework for Tbar
test data.
Funding
Category 1 - Australian Competitive Grants (this includes ARC, NHMRC)
History
Start Page
1651
End Page
1657
Number of Pages
7
Start Date
2020-10-11
Finish Date
2020-10-16
eISSN
1098-6189
ISBN-13
9781880653845
Location
Online
Publisher
International Society of Offshore and Polar Engineers (ISOPE)