Characterization of the Evolution of Energy Loss Rate in Cyclic Load Testing of Marine Soft Soil DOI Creative Commons
Yuhao Sun, Heng Zhang, Yajun Liu

et al.

Applied Sciences, Journal Year: 2025, Volume and Issue: 15(5), P. 2354 - 2354

Published: Feb. 22, 2025

The study of energy evolution laws has been widely applied in the geotechnical analysis soft rocks and coal seams. However, research on marine soil primarily focused consolidation behavior, shear properties, microstructural evolution, with limited exploration systematic methods based laws. This paper addresses this gap by analyzing dynamic triaxial test data to explore relationship between loss rate number cyclic loadings soil. Through calculations derivations, a mathematical expression for is established using curve fitting. Additionally, an envelope diagram depicting dissipation under varying perimeter pressures water contents presented. serves as criterion assessing stability soil, which further validated through engineering applications. findings offer novel approaches insights developing theoretical models rapid strength assessment techniques practices.

Language: Английский

Characterization of the Evolution of Energy Loss Rate in Cyclic Load Testing of Marine Soft Soil DOI Creative Commons
Yuhao Sun, Heng Zhang, Yajun Liu

et al.

Applied Sciences, Journal Year: 2025, Volume and Issue: 15(5), P. 2354 - 2354

Published: Feb. 22, 2025

The study of energy evolution laws has been widely applied in the geotechnical analysis soft rocks and coal seams. However, research on marine soil primarily focused consolidation behavior, shear properties, microstructural evolution, with limited exploration systematic methods based laws. This paper addresses this gap by analyzing dynamic triaxial test data to explore relationship between loss rate number cyclic loadings soil. Through calculations derivations, a mathematical expression for is established using curve fitting. Additionally, an envelope diagram depicting dissipation under varying perimeter pressures water contents presented. serves as criterion assessing stability soil, which further validated through engineering applications. findings offer novel approaches insights developing theoretical models rapid strength assessment techniques practices.

Language: Английский

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