Descriptions
RocSlope, 3D Block stability risk assessment for rock slopes. For 3D-slope geometries of benches, cuttings, and entire open pits model structurally controlled failure in rock slopes that exhibit joints (faults, joints, bedding, folds, foliations). Define joints as any combination of measured joints, synthetically sampled joint sets, or discrete surfaces defined by orientation and location. determine all valid blocks that could be formed by the intersection of joints. Once the blocks are calculated, determine the stability of each block using the limit equilibrium method to obtain a factor of safety, taking into account weight, shear strength, water pressure, loading and supports. predict You can determine the locations and extent of failures across the entire slope area by creating heat maps to show locations with the lowest safety factors, largest failure volumes and depths, and greatest support requirements. carry out probabilistic Analysis to model the variability of rock weight, joint shear strength and water pressure parameters and determine site-specific failure probabilities. Create statistical plots such as histograms, cumulative and scatter plots for any selection of blocks and fit distributions and regression lines to the data. carry out probabilistic Analysis to model the variability of rock weight, joint shear strength and water pressure parameters and determine site-specific failure probabilities. Create statistical plots such as histograms, cumulative and scatter plots for any selection of blocks and fit distributions and regression lines to the data.
Features of Rocscience RocSlope:
-
Model Geological 3D structures
-
block Stability analysis
-
probability analysis
-
evaluate and locate large and small faults on the benches of an open pit mine as part of optimal pit design, safety planning and risk mitigation during the design and operation phases.
-
geological Danger Assess the stability of rock slopes adjacent to or above civil infrastructure such as roads, highways, railways and bridges. Apply slope stabilization measures by modeling the effects of rock reinforcement and drainage.
System Requirements
operating system
Windows 10 (64-bit), Windows 11 (64-bit)
R.A.M.
Minimum requirement: 32 GB
Recommended for terrain meshes > 100,000 triangles: 64 GB
hard disk
Pictures
buy
For every question Contact us
Size
440MB