Rocscience Phase2 v9.0.11
RS2 (Phase2 9.0) is a powerful 2D finite element program for soil and rock applications (RS2 = Rock and Soil 2-dimensional analysis program). RS2 can be used for a wide range of engineering projects and includes excavation design, slope stability, groundwater seepage, probabilistic analysis, consolidation, and dynamic analysis capabilities.

Complex, multi-stage models can be easily created and quickly analyzed – tunnels in weak or jointed rock, underground powerhouse caverns, open pit mines and slopes, embankments, MSE stabilized earth structures, and much more. Progressive failure, support interaction and a variety of other problems can be addressed.

RS2 offers a wide range of support modeling options. Liner elements can be applied in the modeling of shotcrete, concrete, steel set systems, retaining walls, piles, multi-layer composite liners, geotextiles, and more. Liner design tools include support capacity plots, which allow you to determine the safety factor of reinforced liners. Bolt types include end anchored, fully bonded, cable bolts, split sets, and grouted tiebacks.

One of the major features of RS2 is finite element slope stability analysis using the shear strength reduction method. This option is fully automated and can be used with either Mohr-Coulomb or Hoek-Brown strength parameters. Slope models can be imported or exported between Slide and RS2 allowing easy comparison of limit equilibrium and finite element results.

RS2, Rocscience's 2D finite element analysis program, was used to conduct back-analysis to first determine the cause of the two slope failures. Then, forward-analysis was used to model two scenarios for safe re-entry to resume mining. About Press Copyright Contact us Creators Advertise Developers Terms Privacy Policy & Safety How YouTube works Test new features Press Copyright Contact us Creators. RS2 a complete 2D geotechnical finite element software package for both soil and rock. Supports anchored wall analysis and sheet wall analysis. Founded in 1996, Rocscience is a world leader in developing 2D and 3D software for civil, mining, and geotechnical engineers. As engineers ourselves, we know the importance of having reliable and easy-to-use software. That’s why we constantly develop and refine our programs to make expert solutions that work for you.

RS2 includes steady-state, finite element groundwater seepage analysis built right into the program. There is no need to use a separate groundwater program. Pore pressure is determined as well as flow and gradient, based on user defined hydraulic boundary conditions and material conductivity. Pore pressure results are automatically incorporated into the stress analysis.

Material models for rock and soil include Mohr-Coulomb, Generalized Hoek-Brown and Cam-Clay. Powerful new analysis features for modeling jointed rock allow you to automatically generate discrete joint or fracture networks according to a variety of statistical models. With new 64-bit and multi-core parallel processing options RS2 can solve larger and more complex models in shorter times.
Product:Rocscience Phase2 v9.0.11
Lanaguage:english
Platform:Win7/WIN8
Size:1CD

The Latest RS2 comes with new features for Groundwater and Seepage Analysis

Like with most technological advancements, innovation often breeds innovation, and such is the case with this latest addition to RS2’s Seepage Analysis functions. After a new feature was added to Slide2 and RS2 that allowed for users to define anisotropic strength parameters in their model, a flood of requests were made for adding a similar feature for anisotropic permeability during one’s seepage analysis. This new feature is one of many being added to the latest Maintenance+ release of RS2.

Anisotropic Permeability: K1 Surface Option

As you know, when doing a seepage analysis in RS2, the soil permeability can either be defined as either isotropic or anisotropic. The permeability of the soil determines how the groundwater will drain and plays a critical part in performing a proper seepage analysis (as well as slope stability analysis). The pore water pressure distribution in your material affects directly affects the accuracy of the slope stability analysis and determined factor of safety.

A new K1 Surface option was added that allows a user to assign the K1 line to an anisotropic surface. Previously users would enter a specific K1 angle. Now a drop-down option has been added to the Hydraulic Properties tab of the Define Materials dialog, which allows the user to select either the K1 Angle or K1 Surface option. If the user selects the K1 Surface option, they can select an anisotropic surface as the K1 line. Anisotropic surfaces can be added by selecting the Add Anisotropic Surface option in the Boundaries menu and applying it to your model with your mouse.

This quick and simple to use option can have a huge impact on the results of your analysis. As previously mentioned, getting a more accurate pore water pressure distribution means more accurate slope stability results and better-informed designs of slopes and supports. With this new option, users will have a much easier experience dealing with the real, practical problems of today, where materials are often not isotropic in their formation.

Other New Ground Water Features

In addition to this soil permeability feature, two other exciting groundwater features have been added to the program.

A new option has been added to the Groundwater tab of your Project Setting for restraining excess pore pressure. If the checkbox for the Restrain excess pore pressure from undrained material option is selected, the excess pore pressure generated from the undrained material in your model will also follow the boundary conditions of the Finite Element Groundwater.

These mentioned Boundary Conditions now have additional functions as well. With joints, users can now select which side of a joint to apply the specific boundary conditions. This option becomes available when setting boundary conditions in a Steady State groundwater analysis. Specifically, if the Groundwater Method is selected as Steady State FEA or Transient FEA in Project Settings, then the groundwater (hydraulic) boundary conditions can be specified with the Set Boundary Conditions option in the Groundwater menu.

When a joint is selected, users are given the option to select a specific side of the joint indicated by a plus (+) or minus (-) symbol.

Rocscience Rs2 Update

How to get these updates

Rocscience Rs2 Crack

If you’re an existing customer and have a Maintenance+ subscription, keep an eye on your Inbox. As soon as the release is ready, you’ll receive an email from us with download links and instructions for updating your license.

If you’re a license owner but don’t have Maintenance+, now’s your chance to subscribe to our enhanced maintenance and support service. Maintenance+ gives you the peace of mind of knowing that you’re always working with the latest version of your software. To subscribe now, contact us at maintenanceplus@rocscience.com.

Rocscience Rs2 Crack

Finally, if you’re a new customer, give RS2 a try by signing up for a trial version or, of course, purchasing a license.