The Effects Of A Direct Electrical Current On The a Value Of Metallic Piles In Clay - Synopsis

The application of a direct current electrical potential between a metallic pile and a fine grained soil results in an almost instantaneous change in the magnitude of the forces acting on the pile. During installation, with the pile connected as a cathode, the driving force needed can be reduced dramatically. Reversal of the polarity results in an increase in ultimate bearing capacity. The cause of the aforementioned phenomenon has been investigated and found to be two-fold; ie the electro-osmotic transport of pore-water and the electro-chemical hardening of the clay in close proximity to the pile. In the case of the former effect, the pore-water is transported towards the cathodic pile resulting in a temporary, reversible change in the engineering properties of the clay surrounding the pile. This effect is represented by a change in Skempton's Adhesion Factor (a). A total of one hundred and forty eight model tests was undertaken to study the change in the a valve using different types of metallic pile. The tests revealed changes in bearing capacity related to embedded length, skin-friction, end bearing and electro-osmotic gradient. It was shown in skin-friction-only tests that variations in soils strength across the soil profile caused by the electro-osmosis caused resultant changes in bearing capacity. This work is being carried out with the collaboration of Hercules Piling, a subsidiary of Stent Foundation Ltd.