New in ITASCA Software v9.1

New in ITASCA Software v9.1

The latest updates to ITASCA software products such as FLAC3D, FLAC2D, 3DEC, PFC, and MassFlow now include point releases (e.g., 9.1, 9.2) between major versions (e.g., 9.0, 10.0). These point releases bring significant benefits, especially for subscription license holders.

Subscription license holders enjoy seamless access to point releases at no additional cost. These point releases are packed with new features and capabilities developed in response to user feedback and industry advancements. By staying current with point releases, subscribers can leverage the latest tools and functionalities, enhancing their productivity, efficiency, and competitiveness.

Perpetual license holders also benefit from continuous support within their software version's support period. While they may not receive point releases, they still qualify for bug fix updates and minor improvements, maintaining stability and reliability in their software environment.

Improved Fluid Flow and Thermal Analyses

Applies to FLAC2D and FLAC3D

The mechanical-fluid and mechanical-thermal commands and workflow have been greatly simplified, making fluid flow analyses much easier to learn and use.

  • All fluid properties and initializations are now consolidated within ZONES only via the new ZONE FLUID PROPERTY command. Models using any old fluid or thermal commands will continue to work as v910 is fully save and data file backwards compatible.
  • If the transient response is not needed, quickly solve to steady state without needing to cycle using new the command ZONE FLUID STEADY-STATE.
  • Now able to create a user-defined permeability saturation curve via Tables.
  • New soil saturation-suction models, including:
    • Gardner,
    • Brooks & Corey,
    • Van-Genucten, and
    • user-defined Tables.
  • New wet density contour plot-item.
  • New fast implicit fluid solver for partially saturated material
  • New timestep servo that automatically adjusts timestep (from explicit to implicit, and back if necessary) to solve fluid flow and thermal models as fast as possible (BETA)

Improved Multi-Process Modeling

Applies to FLAC3D, FLAC2D, and 3DEC

Multi-process models contain two or more coupled or decoupled solutions (mechanical/static, fluid, dynamic, thermal, and creep). Significant improvements have been done to greatly simplify multi-process models in order to make such analyses much easier to learn and use. New features include:

  • FISH, Python, and Table data between may now be retained between models using the new SKIP keyword when issuing a MODEL NEW or MODEL RESTORE command. This can also be very useful when running a series of parametric models in order to analyze all the model results being recorded.
  • The SOLVE command has been updated to solve one process at a time simplifies working with multi-process models. Processes no longer need to be set ON or OFF.
  • The SOLVE-FLUID (or SOLVE-THERMAL) command can be used for loosely coupled models. The fluid or thermal solution leads (over a set time period), followed by mechanical solution (until set convergence criteria), repeating until the solve criteria is met.
  • The SOLVE-FLUID-DECOUPLED command can be used to solve a decoupled fluid/mechanical problem, where each step solves for fluid time then solves mechanically to set convergence criteria.

Updated Null Logic

Applies to FLAC3D and FLAC2D

Zones may be nulled to represent removal of material that you may want to backfill later or cycle through glaciation periods (ice/no ice). When a zone is nulled, the model behaves as if the zone has been deleted, but the zone position and shape continue to be tracked for easy reuse later.

  • To simplify the null state across different processes (mechanical, fluid, and thermal), the null logic is no longer treated as a constitutive model.
  • To null a zone now, simply use the command ZONE NULL or the FISH intrinsics zone.null and gp.null.
  • Null zones are null for all processes (mechanical, fluid, thermal, dynamic, and creep).
  • A new zone constitutive model called inactive has been added to provide an impermeable material for fluid flow and a perfect insulator for thermal analyses.

Better Scripting

Applies to FLAC3D, FLAC2D, 3DEC, PFC, and MassFlow

  • Python can now access the built-in geometry logic (user-defined nodes, edges, faces, volumes, etc.).
  • The contourpy Python library (for calculating contours of 2D quadrilateral grids) is now built-in.

Better Flow

Applies to MassFlow

  • Added caved properties in the block model to keep track of mineral grades and rock properties as the cave process progresses.
  • Over 10 new FISH functions to interrogate and dynamically adapt the block model properties and markers properties, and provide more flexibility for cave analysis (e.g., static days in caved blocks and lower- and upper-fragmentation limits on rock fragmentation).
  • Incredibly fast: Restructure of internal DrawRequest module makes importing the Draw Period file (.csv) virtually instant (10 hours in v900 to less than two seconds in v910 for a large mine simulation).

And More

Applies to FLAC3D, FLAC2D, 3DEC, PFC, and MassFlow

  • Grouping operations are now faster.
  • New Hoek-Brown curve fitting and plotting tool – then add these value as PROPERTY commands right into your model.
  • QT 6 user interface libraries have been updated:
    • User interface appearance is improved on high-resolution monitors.
    • No need to specify OpenGL Mode.
  • By place an * at the start of a command, all related warning messages will be suppressed.
  • New unified dialog to better manage license/key management (Itasca Software License Manager).
  • New and updated mechanical and fluid flow examples.

Senaste nytt