Products for Slope Stability
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Products for
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Slope Stability
As a major focus area for research and development at Rocscience, our suite of slope stability analysissoftware is highly developed and can meet the demands of even the most advanced geotechnicalprojects. Our programs include software for 2D and 3D soil and rock slope stability, limit equilibrium andfinite element analysis, and 2D and 3D modeling.
The most comprehensive 2D limit equilibrium software available. Explore what’s new in Slide22018, including spatial variability, surface altering optimization, and more.
Solve challenging 3D slope stability models with ease. Based on our bestselling Slide2 limit equilibrium software, Slide3 helps you get even more out of your slope stability analysis.
Rocscience Software Solutions Slide Groundwater Dams. For details see Slide Tutorial #14: Slide Tutorial # 14 Groundwater Flow in.
RS2 is a 2D finite element program that is used to analyze the stability of soil and rock slopes using the shear strength method.
RS3 uses shear strength reduction to determine slope stability in 3D finite element models. Model soil and rock slopes, slope supports and more in full 3D.
RocFall is a statistical analysis program designed to assist with assessment of slopes at risk forrockfalls.
RocTopple is an interactive software tool for performing toppling analysis and support design ofrock slopes. RocTopple makes it easy to visualize the slope failure in both 2D and 3D.
Design and analyze planar rock slopes with RocPlane, a quick and easy tool to help you build planarmodels and visualize them in 2D and 3D.
SWedge is a quick and simple-to-use analysis tool for evaluating the geometry and stability ofsurface wedges in rock slopes.
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Rocscience’s creation and inclusion of the “Launched Soil Nail” support type in Slide 2018 now allows users to input the structural properties of launched soil nails into their 2D limit equilibrium slope stability analysis program. Slide 2018 uses the theory outlined in the USFS/FHWA “Application Guide for Launched Soil Nails” manual to calculate the ultimate nail resistance. The program also permits the engineer to specify the resistance type the support provides – tensile, shear, or a combination of the two. Prior to incorporation into Slide 2018, designers had to employ a more tedious design method using equations from the USFS/FHWA manual, calculated by hand or spreadsheet, and then iteratively input into slope stability software using user-defined support models, updating with each stability analysis run until convergence. By performing the calculations within the program code, the analysis is streamlined and greatly reduces the opportunity for transposition errors between separate programs.
The creation and inclusion of the “Launched Soil Nail” support type in Slide 2018 culminates a years-long collaboration between Rocscience and GeoStabilization. “We are excited that these updates to Slide 2018 allow designers to add this important tool to their geohazard mitigation toolbox,” states Roch Player, PE, GeoStabilization’s Chief Engineer. He continues, “by providing more options to the profession, the better we all can serve the public and protect them from the dangers of geohazards.”
Information on Slide 2018 and purchasing details can be found here.