Solution for Creating and Simulating Multi Flexible Body Dynamics Models
RecurDyn is the multibody dynamics software that is founded on the next generation of motion theory, namely recursive formulation. RecurDyn gives the best performance in large-scale multi-body problems, including mechanical systems that experience a lot of contact.
Do You Need RecurDyn?
- Have my CAE tools kept pace with the demands of concurrent engineering processes?
- Are my mechanisms behaving as intended?
- Am I getting timely loads for up-front FE analysis?
- Are my mechanical simulation results able to influence product design?
- Design tensioning devices to optimize chain tension.
- Are our time/cost saving what we had expected?
Features
- Fast and reliable mechanical system simulation
- Familiar user interface: CAD-like & Windows-native
- Powerful 2D/3D surface contact modeling
- Advanced flexible body dynamics
- Automated modeling using exclusive toolkits
RecurDyn Analysis Options
- Rigid and Flexible Multibody Dynamic Analysis
- Kinematic Analysis
- Static Analysis
- Design Studies and Design of Experiments
- Sensitivity Analysis
- Vibration (Linear) Analysis
RecurDyn features a natural Windows-based user Interface that is combined with a powerful solver. The interfaces listed above help you leverage geometry from CAD systems, flexible bodies from FEA software and let you interact with Matlab/Simulink. The application toolkits help you quickly define high-fidelity models that give you the accurate performance data that you need for engineering design. The value of having a true virtual prototype can be realized.
RecurDyn Interface Software
- Import/Export Parasolid, STEP, and IGES geometry
- Co-Simulate with Matlab/Simulink
- Import flexible bodies from FEA software and export body loads to FEA.
- Import FE meshes and simulate flexible bodies with contact
RecurDyn Toolkit Modules
- Define and simulate the motion of paper, film, or any type of media through machinery with rollers and guides.
- Define and simulate detailed models of chains, belts, and gears that include the dynamics of the contacts.
- Define and simulate off-road tracked vehicles for military and construction use.