Virtual Performance Solution
 
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Motion and dynamics simulation

With the Virtual Performance Solution, evaluate Motion and Dynamics of Mechanical Systems for your product real life performance.

   Motorcycle Motor Dynamics Performance
 Included in the Virtual Performance Solution, PAM-MEDYSA allows you to run different simulations simultaneously and use the results as loading conditions for further analysis such as durability. It is only an easy switch from rigid body mechanisms for design iterations to a full flexible mechanism for the computation of dynamic stresses. In order to investigate the behaviour of single components, mechanisms can be defined partially flexible to reduce overall computing time. Manufacturing results, such as residual stresses or hardening effects from Heat Treatment in prior production processes can be included as initial conditions for the simulation of dynamic stresses.

   Focus on the Moto Motorcycle
crankshaft, track rod and piston
(cut).
 

PAM-MEDYSA has significant advantages over conventional methods in the field of accuracy, flexibility and efficiency. Well known parallelisation capabilities of the ESI Group solver products, which includes PAM-MEDYSA, assures short iteration cycles while submitting real life models and keep the abstraction level to a minimum. This finally leads to a very high accuracy of the results.

 Motorcycle Motor CAD Geometry  Motorcycle Motor CAD Geometry 

Advanced capabilities

- Unmatched 3D full flexible smooth contact algorithms for exact physics
- DMP solution for high parallelisation to keep cycle time at a minimum
- Integrated graphical environment to reduce model setup time
- Integrated linear and non-linear material library
- Coupling with manufacturing simulation to improve accuracy of the model

PAM-MEDYSA offers a unique scalable engineering framework aimed at improving product design while reducing development cycles. By integrating both fast motion simulation and the physics of materials, it allows you to evaluate the product real life performance at every stage of the design process.