- Contacts : linéaires, non linéaires (rugueux limité, sans frottement limité), liaisons cinématiques, points de soudure
- Matériaux mécaniques : linéaires
Simuler le comportement mécanique des matériaux dans des conditions réelles
Ansys Mechanical Pro
Fonctionnalités :
- Techniques avancées : flambage linéaire/non linéaire, serrage de boulon, symétrie cyclique, submodeling, optimisation topologique
- Module de fatigue
- Couplages : Thermo structurel (faible)
- Module Ansys DesignXplorer intégré : optimisation, plan d’expérience et surfaces de réponse
- Analyses statiques
- Analyses vibratoires : modale
- Analyses thermiques : conduction, convection, rayonnement, changement de phase/stationnaire, transitoire
CAPABILITIES
HIGH-PERFORMANCE COMPUTING
Finding natural frequencies, responses to harmonic loads and understanding behavior during transportation (random or PSD vibration) or events such as earthquakes (seismic response) gives you the ability to accurately predict how your designs will work in dynamic environments. The ability to include pre-loading adds more fidelity and means that self-weighted, bolted assemblies — or even cases like brake squeal — can be simulated.
GEOMETRIC NONLINEARITY
Nonlinear materials behave vastly differently to those operating in the linear range. Sealing applications or scenarios where materials see permanent deformation through plasticity are common, and being able to easily add in user-defined materials, or ones selected from a library provided with the software, means that you can couple the contact and geometric nonlinearities to get even closer to reality.
FATIGUE MODULE
Mechanisms and systems can easily be simulated as either fully rigid, using the rigid body dynamics capability, fully flexible or a mix of the two. You can choose exactly which parts of the assembly to study in detail and use the resources available as efficiently as possible. Each joint in a system can be interrogated to look at the forces and reactions upon them. Individual components can be easily isolated and studied in detail to map the forces from the whole assembly to consider operational scenarios.
CONTACT CAPABILITIES
Finding natural frequencies, responses to harmonic loads and understanding behavior during transportation (random or PSD vibration) or events such as earthquakes (seismic response) gives you the ability to accurately predict how your designs will work in dynamic environments. The ability to include pre-loading adds more fidelity and means that self-weighted, bolted assemblies — or even cases like brake squeal — can be simulated.
MULTIPHYSICS
Nonlinear materials behave vastly differently to those operating in the linear range. Sealing applications or scenarios where materials see permanent deformation through plasticity are common, and being able to easily add in user-defined materials, or ones selected from a library provided with the software, means that you can couple the contact and geometric nonlinearities to get even closer to reality.
THERMAL ANALYSIS
Mechanisms and systems can easily be simulated as either fully rigid, using the rigid body dynamics capability, fully flexible or a mix of the two. You can choose exactly which parts of the assembly to study in detail and use the resources available as efficiently as possible. Each joint in a system can be interrogated to look at the forces and reactions upon them. Individual components can be easily isolated and studied in detail to map the forces from the whole assembly to consider operational scenarios.