Computes immediate settlement, primary consolidation, and secondary compression (creep) over specified timelines.
Rotates and inspects underground wedges from any angle to assess potential fallout blocks.
Settle3D v2.0 (now known simply as Settle) is a three-dimensional program modeled for the analysis of vertical settlement and consolidation under foundations, embankments, and surface loads. It simplifies the complex calculation of stress distribution and soil deformation over time. Key Features It simplifies the complex calculation of stress distribution
: Includes Westergaard and Boussinesq stress distribution theories for precise vertical stress calculation. 3. Rocscience Slide 6.0 (2D Slope Stability)
: Renders complex perimeter and end wedges in interactive 3D space. Rocscience Slide 6
Supports various foundation shapes, area loads, and embankment loads.
: Includes a kinematic analysis toolkit for planar, wedge, and toppling failure modes. It supports fuzzy cluster analysis for joint set selection and interactive graphical editing of stereonet objects. Settle3D v2.0 (Soil Settlement & Consolidation) and toppling failure modes.
: Employs advanced algorithms to identify joint sets from raw borehole or field data.
Evaluates all possible joint combinations from a structural database to find maximum wedge volumes.
is a highly versatile 2D slope stability program utilizing the Limit Equilibrium Method (LEM). It handles both soil and rock slopes to evaluate safety factors against sliding failure.
Computes immediate settlement, primary consolidation, and secondary compression (creep) over specified timelines.
Rotates and inspects underground wedges from any angle to assess potential fallout blocks.
Settle3D v2.0 (now known simply as Settle) is a three-dimensional program modeled for the analysis of vertical settlement and consolidation under foundations, embankments, and surface loads. It simplifies the complex calculation of stress distribution and soil deformation over time. Key Features
: Includes Westergaard and Boussinesq stress distribution theories for precise vertical stress calculation. 3. Rocscience Slide 6.0 (2D Slope Stability)
: Renders complex perimeter and end wedges in interactive 3D space.
Supports various foundation shapes, area loads, and embankment loads.
: Includes a kinematic analysis toolkit for planar, wedge, and toppling failure modes. It supports fuzzy cluster analysis for joint set selection and interactive graphical editing of stereonet objects. Settle3D v2.0 (Soil Settlement & Consolidation)
: Employs advanced algorithms to identify joint sets from raw borehole or field data.
Evaluates all possible joint combinations from a structural database to find maximum wedge volumes.
is a highly versatile 2D slope stability program utilizing the Limit Equilibrium Method (LEM). It handles both soil and rock slopes to evaluate safety factors against sliding failure.