Researchers from Kyoto University have introduced a velocity-based space-time finite element procedure in the International Journal of Mechanical System Dynamics. Published (DOI: 10.1002/msd2.12106) on June 4, 2024, the study presents a methodical approach to truncate unbounded soil domains and model energy flow during seismic activities, offering a significant leap forward in dynamic SSI analysis.
The study introduces a velocity-based space-time finite element method (v-ST/FEM) to address dynamic SSI problems. This innovative method incorporates viscous boundary conditions based on the Lysmer-Kuhlemeyer model, effectively truncating the unbounded soil domain to prevent spurious reflections. The v-ST/FEM method accurately simulates seismic input motion as an effective nodal force vector in numerical simulations, ensuring energy flow from the far field to the computational domain. The researchers validated this approach by comparing the seismic response of a concrete gravity dam on an elastic half-space with results from the semidiscrete finite element method (FEM) using the Newmark-β method. The v-ST/FEM method demonstrated superior accuracy and stability in long-duration seismic motion simulations, making it a reliable tool for future SSI analyses and improving the prediction of seismic performance for various structures.
Dr. Vikas Sharma, the lead author of the study, emphasizes the importance of this research, stating, “Our v-ST/FEM approach offers a more accurate and computationally efficient method for dynamic soil-structure interaction problems. This advancement is crucial for developing infrastructure that can better withstand the forces of nature, ultimately safeguarding lives and property.”
The application of this research is far-reaching, particularly for the design and assessment of earth structures such as dams and embankments in seismic zones. By providing a more accurate prediction of seismic soil amplification, the v-ST/FEM can contribute to the creation of safer and more resilient infrastructure, potentially saving lives and reducing the economic impact of earthquakes.
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References
DOI
Original Source URL
https://doi.org/10.1002/msd2.12106
Funding information
This work was supported by JSPS KAKENHI Grant-in-Aid for Scientific Research (B) (Grant Number 21H02304).
About International Journal of Mechanical System Dynamics (IJMSD)
International Journal of Mechanical System Dynamics (IJMSD) is an open-access journal that aims to systematically reveal the vital effect of mechanical system dynamics on the whole lifecycle of modern industrial equipment. The mechanical systems may vary in different scales and are integrated with electronic, electrical, optical, thermal, magnetic, acoustic, aero, fluidic systems, etc. The journal welcomes research and review articles on dynamics concerning advanced theory, modeling, computation, analysis, software, design, control, manufacturing, testing, and evaluation of general mechanical systems.