New analytical models have recently been presented for evaluating the peak bearing capacity of circular footings penetrating sand-over-clay and the subsequent capacity once embedded in the underlying clay. However, in lieu of any analytical model, current methods of analysis use an inaccurate linear interpolation for the bearing capacity between the peak and the clay surface. This paper proposes an analytical model for calculating the bearing capacity of circular footings after the peak failure in sand-over-clay soils and before the footing enters the clay. Based on observations from visualisation experiments conducted in a geotechnical centrifuge, and consistent with the silo analysis approach used in predicting the peak capacity, the fail...
© 2017, Canadian Science Publishing. All rights reserved. The presence of a thin soft clay layer ins...
This paper reports on a series of centrifuge model tests investigating the effect of shape on the pe...
The ultimate bearing capacity and failure mechanism of square footings resting on a sand layer over ...
A complete analytical method to describe the full load-penetration resistance profile of a mobile ja...
Severe punch-through of jack-up rig foundations can occur due to the presence of a stronger sand lay...
This paper is concerned with the vertical penetration resistance of conical spudcan and flat footing...
Severe punch-through of jack-up rig foundations can occur due to the presence of a stronger sand lay...
There has been a constant trend towards larger mobile jack-ups capable of operating for extended per...
Spudcans are the traditional footings used for offshore mobile jack-up rigs. However, the installati...
This paper demonstrates the use of a geotechnical drum centrifuge in the calibration of a model to p...
This paper demonstrates the use of a geotechnical drum centrifuge in the calibration of a model to p...
Accurately predicting peak penetration resistance qpeak during spudcan installation into sand overly...
The presence of a thin soft clay layer inside a bed of sand may significantly reduce the bearing cap...
Assessment of the risk of punch-through failure of spudcan foundations on sand overlying clay requir...
This paper describes a series of centrifuge model tests investigating the vertical bearing capacity ...
© 2017, Canadian Science Publishing. All rights reserved. The presence of a thin soft clay layer ins...
This paper reports on a series of centrifuge model tests investigating the effect of shape on the pe...
The ultimate bearing capacity and failure mechanism of square footings resting on a sand layer over ...
A complete analytical method to describe the full load-penetration resistance profile of a mobile ja...
Severe punch-through of jack-up rig foundations can occur due to the presence of a stronger sand lay...
This paper is concerned with the vertical penetration resistance of conical spudcan and flat footing...
Severe punch-through of jack-up rig foundations can occur due to the presence of a stronger sand lay...
There has been a constant trend towards larger mobile jack-ups capable of operating for extended per...
Spudcans are the traditional footings used for offshore mobile jack-up rigs. However, the installati...
This paper demonstrates the use of a geotechnical drum centrifuge in the calibration of a model to p...
This paper demonstrates the use of a geotechnical drum centrifuge in the calibration of a model to p...
Accurately predicting peak penetration resistance qpeak during spudcan installation into sand overly...
The presence of a thin soft clay layer inside a bed of sand may significantly reduce the bearing cap...
Assessment of the risk of punch-through failure of spudcan foundations on sand overlying clay requir...
This paper describes a series of centrifuge model tests investigating the vertical bearing capacity ...
© 2017, Canadian Science Publishing. All rights reserved. The presence of a thin soft clay layer ins...
This paper reports on a series of centrifuge model tests investigating the effect of shape on the pe...
The ultimate bearing capacity and failure mechanism of square footings resting on a sand layer over ...