Study on the Prediction of Slope Failure and Early Warning Thresholds Based on Model Tests

This study investigates the stability of fine-grained sandy soil slopes under varying rainfall intensities, durations, and geotechnical properties using a parametric analysis within GeoStudio. A total of 4416 unique parameter combinations were analyzed, incorporating variations in unit weight, cohesion, friction angle, slope inclination, slope height, rainfall intensity, and duration. Results reveal that rainfall intensity is the most influential variable on the factor of safety (FS), with higher intensities (e.g., 360 mm/h) on steeper slopes (e.g., 45°) leading to critical FS values below 1, indicating an imminent risk of failure. Under moderate conditions (e.g., 9 mm/h rainfall on slopes of 26.6°), the FS remains above 2. This dataset provides a valuable foundation for training machine learning models to predict slope stability under diverse environmental conditions, contributing to the development of early warning systems for rainfall-induced landslides.

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Study on the Prediction of Slope Failure and Early Warning Thresholds Based on Model Tests

Cited by 3 publications

References 20 publications

A study of overtopping breach process with soil–water erosion using improved smoothed particle hydrodynamics

A study of overtopping breach process with soil–water erosion using improved smoothed particle hydrodynamics

Centrifuge tests on the deformation law of pipelines crossing slopes with different water contents

Parametric Study of Rainfall-Induced Instability in Fine-Grained Sandy Soil

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