• SVSLOPE

    Análisis de estabilidad de pendientes LEM en 2D o 3D

SVSLOPE

SVSLOPE® representa el nuevo estándar en análisis de estabilidad de pendientes en 2D y 3D. Los usuarios pueden realizar análisis de pendiente del equilibrio límite sobre las pendientes rocosas o del suelo mediante el método de cortes o los nuevos métodos basados en tensiones. La búsqueda integral de superficies de desfase en 2D, las condiciones de presión de poro de agua y el análisis espacial innovador en 3D permiten realizar modelos en nuevos niveles.
Capacidades
  • Escoger diversos métodos de análisis

    • Catorce métodos diferentes de análisis, incluidos métodos clásicos de cortes como Bishop, Janbu, Spencer, Morgenstern-Price, GLE y métodos basados en tensión. Realice el análisis híbrido de Kulhawy mediante la importación de campos de tensión de SVSOLID en 2D y 3D.
  • Create limit equilibrium models

    • 2D/3D Limit equilibrium slope stability modeling of soil and rock slopes.
  • Creation of geometry

    • Creation of geometrically complex digital twin 3D models with the SVDESIGNER™ conceptual model builder. Creation of 3D models from triangulated surfaces (TINS). Multiple 3D model-building methodologies (Extrusions, 2D cross-section stitching, 3D layer cake, or material volume method).
  • Condiciones de carga externas representadas

    • Las condiciones de carga externas se pueden representar en modelos 2D o 3D.
  • Importar modelos externos

    • Importar los modelos SLOPE/W, de deslizamiento y CLARA-W para realizar análisis más detallados.
  • Reduce solution times

    • Parallel processing and improved solution algorithm greatly reduce solution times. Parallel processing and CPU core sensing and management controller implemented for MPA computations. One or two-way sensitivity analysis allows the generation of a contoured surface based on the relationship between two input variables.
  • Searching methods

    • Comprehensive critical slip surface searching methods are available, including dynamic programming, the Greco method, and the Cuckoo Search Method (NEW). Optimization of critical slip surfaces in 2D and 3D (NEW) are also available. Automatic determination of slip direction in 3D is also new. Improved block searching in 2D (NEW) is possible, as well.
  • Spatial searching methods

    • Multi-Plane Slope Stability Analysis (MPA) enables spatial slope stability analysis in 2D and 3D (NEW). Advanced 2D/3D probablistic analysis such as Monte Carlo, Latin Hypercube, and the Alternative Point Estimation Method (APEM) in 2D and 3D.
  • Support for constitutive models

    • Support for over 20 different soil and rock strength models, including Mohr-Coulomb, Hoek-Brown, Undrained, Anisotropic, Bilinear, Frictional-Undrained, Duncan-Chang Hyperbolic, von Mises, Drueker-Praeger, Cam-Clay, ALM1/ALM2/ALM3/ALM4, and four unsaturated shear strength models.
  • Support for reinforced slopes

    • Extensive support for reinforced slopes including grouted anchors, micropiles, and geomembranes.