Shear Mechanical Properties of Rock Joints Under Non-Uniform Load Based on DEM Article Swipe

View

Related Concepts

Materials science Geotechnical engineering Geology Shear (geology) Composite material

Hongwei Liu , Xing Zhang , Hang Lin , Yifan Chen , Chaoyi Yang , Ke Ou ·

YOU? · · 2025 · Open Access · · DOI: https://doi.org/10.3390/app15084257 · OA: W4409434121

Previous joint test studies have mainly been conducted under the condition of uniformly distributed loads, but in engineering, overlying loads are often non-uniformly distributed. It is necessary to investigate the shear mechanical properties of joints under non-uniform loads. This paper establishes three typical mechanical models: far-field concentration (FFC), near-field concentration (NFC), and focus on center (FOC). Direct shear test simulations using the DEM software PFC reveal that the location of load concentration affects main shear parameters. The closer the load concentration is to the far end along the shear direction, the greater the deformation of rock mass during failure is, the higher the proportion of shear cracks is, and the greater the strength and energy required for failure are. Compared to a uniformly distributed load (UD) condition, FOC shows similar mechanical properties; NFC yields inferior outcomes, while FFC results in superior mechanical performance compared to UD. By utilizing machine learning, five prediction models for non-uniform load shear strength are developed, with the Genetic-XGBoost algorithm demonstrating the highest accuracy. Weight calculation results indicate that load distribution form is the most critical factor influencing shear strength.