What is dynamic probing?
The cone diameter and angle will depend upon the chosen method. For example, the super heavy dynamic probe (DPSH) has a cone diameter of approximately 50mm and a cone angle of 90 degrees.
The cone is attached to a 1.0m section steel rod with a diameter of approximately 35mm and graduation markings at 100mm intervals. Depending upon the chosen method, the drop height can be adjusted. The super heavy method is generally the preferred choice, with a drop weight of 63.5kg and a drop height of approximately 750mm.
The cone can both be fixed to the rods and recovered at the end of the test, or can be disposable and detaches from the rods at the end of the test when the rods are retracted. It is usual to conduct a torque reading of the rods after each metre of penetration using a torque wrench in order to estimate the skin friction effects on the rods. These torque readings are normally only conducted when using the disposable cone. A further rod is then added and the process is continued until the probe refuses to penetrate the ground or the test reaches the target depth.
The test was designed to provide a rapid and economic method of assessing the penetration resistance of the ground and can be roughly equated to equivalent SPT ‘N’ values. The test provides a continuous profile of ground resistance with depth, rather than at the discrete depths of a conventional SPT test.
A log of the dynamic probe test results is provided in tabular and graphical form, providing a visual interpretation of the different soil strata encountered. The logs can be provided the following working day after conducting the test.
Dynamic probing is able to locate boundaries between strata of differing density and driving resistance. The dynamic probe results can be used to establish the sub-surface presence of obstructions such as old foundations or buried objects. The results are also used to identify soft areas and voids or cavities within the soil, such as dissolution features in chalk or mine workings.