Estimating Dynamic Properties from Static Tests

The applicability of various types of constitutive models to estimating dynamic material properties for soils from the results of static shear tests is briefly reviewed. The primary obstacle to making such predictions is the limiting resolution of conventional static tests. A simple procedure using empirical relationships to interpolate beyond the limit of the static shear tests is suggested for use in preliminary analysis and in cases where cyclic test data is not available

One- and Two-Dimensional Analysis of Earth Dams

Earth dams may experience reduction in shear strength due to seismically induced pore pressures. Such reduction may be large enough to result in large deformations and eventual loss of the reservoir. While the analysis of embankment dams subject to earthquake loading is a complicated process, it is required for evaluation of seismic stability. In particular, the possibility of liquefaction in older, hydraulically-filled or otherwise poorly compacted dams during earthquakes presents a threat that must be addressed. This paper compares two methods of calculating the peak dynamic shear stress (critical to liquefaction evaluation) that occurs in an embankment during an earthquake. The first method is a one-dimensional analysis, which is simple, rapid and inexpensive. The second method is a two-dimensional finite element analysis, which is complicated, long and expensive. Because it is more desirable to use the simpler one-dimensional analysis, the results from the two analyses were compared and indicated that for slopes up to 35° the stresses were comparable