RecurDyn is Computer Aided Engineering (CAE) software that is focused on Multibody Dynamics (MBD), while offering multiphysics solutions. The technology behind RecurDyn has superior calculation efficiency because it is based on recursive formulation. Because of this, RecurDyn gives the best performance in large-scale multibody problems (systems with a large number of bodies), including mechanical systems that experience a lot of contact. Learn more…
Particleworks is fluid dynamics simulation software based on the recently developed MPS (Moving Particle Simulation) formulation. This method is especially useful for simulations that involve free fluid surfaces. It represents the fluid as a very large collection of particles, and therefore, it does not require a complex mesh. Particleworks achieves very high computational efficiency through the use of gradient and Laplacian models of the Navier-Stokes equations, which are the fundamental equations of fluid dynamics. Particleworks is already used by a large number of industries in various fields. Learn more…
MBD for ANSYS offers powerful Multi-Body Dynamics (MBD) analysis capabilities within the ANSYS Workbench environment. This lets ANSYS users simulate the motion and all of the related physics of mechanical assemblies, enabling them to understand the behavior of their assemblies up-front and to generate the loads needed for component-level FEA. MBD for ANSYS also serves as a bridge to advanced MBD analysis, as users can export models to the standalone RecurDyn software. Learn more…
EDEM is a market-leading software that was developed for bulk material simulation. Powered by state-of-the-art Discrete Element Modeling (DEM) technology, EDEM quickly and accurately simulates and analyzes the behavior of bulk materials such as coal, mined ores, soil, tablet, and powders. This method has been applied to simulate and analyze flow behavior in a wide range of disciplines including pharmaceutical and process engineering, mechanical engineering, materials science, agricultural engineering and more. Learn more…
True-Load is a first to market to solution that leverages FEA models to place strain gauges on unmodified physical parts and then back calculate loading. Output directly feeds into True-QSE events, a powerful post processing tool that supports rapid virtual iteration. True-Load directly interfaces to FEA fatigue software to make FEA based fatigue with correlated loading events a natural part of the design cycle. Learn more…