The award winning Osterberg Cell®, or "O-cell", gets its name from the inventor, Dr. Jorj O. Osterberg. The O-cell is a hydraulically driven, high capacity, sacrificial loading device installed within the foundation unit. As the load is applied to the O-cell, it begins working in two directions; upward against upper side shear and downward against base resistance and lower side shear (if applicable).
By virtue of its installation within the foundation member, the O-cell load test is not restricted by the limits of overhead structural beams and tie-down piles. Instead, the O-cell derives all reaction from the soil and/or rock system and the foundation element itself.
Each O-cell is specially instrumented to allow for direct measurement of the O-cell's expansion. By measuring the top of shaft movement and compression, the upward and downward O-cell movement is determined. Strain gages are often used to separate stratigraphic zones. Loadtest provides a detailed data report containing tables, graphs, calibrations, detailed description of the tested element and subsurface. Graphs include load and movement data, t-z and q-z plots, strain gage load distribution and an equivalent top load plot.
O-cells range in capacities from 200 kips to 6,000 kips. By using multiple O-cells on a single horizontal plane, the available test capacity can be designed to obtain virtually any load. By utilizing multiple O-cells on different planes, distinct elements within a shaft or pile can be isolated for testing. Using the O-cell, Loadtest has elevated the application of deep foundation load testing, from expensive, time-consuming, small scale field tests to state-of-the-art, short-duration, full scale load testing of production shafts and piles.
Patents US 7,353,714;
US 8,443,677; US 8,511,176;