Description
The PM4Silt plasticity model was developed and implemented by Boulanger
and Ziotopoulou (2018) for representing low-plasticity silts and clays in geotechnical earthquake engineering applications. Model development emphasized approximating a range of undrained monotonic and cyclic loading responses of saturated low-plasticity silts and clays that exhibit stress-history normalized behaviors, as opposed to the responses of purely nonplastic silts and sands. PM4Silt is a stress-ratio and critical state controlled, bounding surface plasticity model that builds on the framework of the PM4Sand model.
PM4Silt: A silt plasticity model for earthquake engineering applications
Keywords
- effective stress
- liquefaction
- pore pressure
- seismic loading
References
Boulanger, R. W., and Ziotopoulou, K. (2023). “PM4Silt (Version 2.1): A silt plasticity model for earthquake engineering applications.” Report No. UCD/CGM-23/02, Center for Geotechnical Modeling, Department of Civil and Environmental Engineering, University of California, Davis, CA. [February 2023; revised June 2023] [PDF available here]