Itasca International PFC Download (Latest 2024) - FileCR
Free download Itasca PFC 7.00.159 Latest full version - General Purpose Distinct-Element Modeling Framework.
Free download Itasca PFC 7.00.159 Latest full version - General Purpose Distinct-Element Modeling Framework.
Free Download Itasca PFC for Windows PC. It is a versatile and robust distinct-element modeling (DEM) framework available in two- and three-dimensional programs: PFC2D and PFC3D.
It is designed to model synthetic materials composed of variously sized rigid particles interacting at contact, representing granular and solid materials. The simulation involves independent movement and interaction of multiple rigid particles, considering internal forces and moments at contact points.
Its particle shapes can include disks and spheres in 2D and 3D, rigidly connected clusters of disks and spheres, and convex polygons in 2D or polyhedra in 3D. The software has sixteen built-in contact models and can add custom C++ User-Defined Contact Models (UDMs).
Its versatile design makes it suitable for various numerical investigations involving systems with discrete properties. Academic institutions and private companies worldwide have extensively used it for geoscience investigations.
These applications include hydraulic fracturing, soil-tool interactions, brittle rock fracturing, slope stability, bulk material flow/mixing, and cave mining. Moreover, it has applications in diverse fields, such as carbon nanotubes, molecular dynamics, magnetic materials, and medicine.
This module allows the simulation of transient heat conduction and storage in materials comprising PFC particles. It also facilitates the development of thermally induced strains and forces. Users can opt for thermal-only or coupled thermal-mechanical analysis.
Users can incorporate new contact models using C++ scripting with this feature. It enables the integration of new physics into the distinct-element framework, enhancing the software's flexibility and adaptability.
Itasca PFC, the Particle Flow Code, is a powerful and flexible distinct-element modeling framework that finds applications in various fields, including geoscience investigations, material simulations, and more. Its ability to simulate the interaction of rigid particles at contact points makes it a valuable tool for understanding complex systems with discrete properties.
Whether you are a researcher, engineer, or student, it offers a range of features and analysis modules that can be tailored to suit your specific needs.
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