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SIMULIA 3DEXPERIENCE Multiphysics Simulation

Everything you need for FEA, CFD, FEM and Co-Simulation within a unified suite

Multiphysics Simulation from SIMULIA is based on the market-leading Abaqus technology and provides a complete suite of features for solving Multiphysics problems involving linear and nonlinear solids, fluids, heat transfer, acoustics, vibration, low-frequency electromagnetics, electrostatics, and coupled behaviour between these multiply physical responses. Co-simulation with external products is provided extending the applicability even further. Complex material behaviours in all domains are provided including metals, plastics, elastomers, soils, fluids, and other common engineering as well as high-tech material response. Single part and complex assembly analysis is easy. Most Fortune 500 companies rely on Abaqus within the SIMULIA Multiphysics suite as one of their go-to tools for engineering product development. Applications of SIMULIA Multiphysics include, thermo-mechanical durability of automobile engines, fatigue and fracture of composite structures, tire-soil interaction, inlet manifold thermomechanical durability, and electro-acoustic cutting of tissue. Many, many other applications are also possible. 

Key Benefits of Multiphysics Simulation:

  • All the geometrical functionalities for FE users to create complex geometry
  • Composites properties useful for FE simulation
  • Automatic mesh, rules based meshing functionalities. Use shareable tokens in batch mode
  • Review & manipulate simulation model assembly structure, interoperate with 3rd party simulation models, result of model abstraction process

Key Processes:

  • Computation Fluid Dynamics: Realistic simulation of the physical response of internal and external fluid flows to real-world conditions
  • Durability & Fatigue: Powerful, comprehensive and easy-to-use suite of fatigue analysis software for finite element models
  • Dynamic Analysis: Analyse product drop, impact, crash, sudden stop, motion, and more to include realistic effects of mass, inertia, and movement in your simulation
  • Multibody Dynamics: High-performance kinematic (motion) simulation of mechanisms, multi-body problems, and machines (including the human body)
  • Structural Analysis: Rapidly evaluate structural integrity
  • Thermal Analysis: Include effects of heat transfer between parts

Roles and Options available with Multiphysics Simulation:

Simulation Geometry Modeller: Create geometry for simulations using parametric or direct modelling techniques

Structural Vibration Analyst: Advanced linear static and linear dynamic simulation

Assembly Modelling Specialist: Create large and complex finite element assemblies

Noise and Vibration Analyst: Advanced linear static and dynamic simulation techniques to validate requirements

Simulation Tokens: Reuseable tokens that enable simulation computation on local and remote hardware

Simulation Results Analyst: Advanced finite element simulation techniques to understand complex engineering problems

Fuild Mechanics Analyst: Validate requirements of complex products using advanced Computational Fluid Dynamics (CFD)

Mechanical Analyst: Advanced finite element simulation techniques to understand complex engineering problems

Finite Element Modelling and Assembly Specialist: Create and manage large and complex finite element assemblies

Composites Simulation Engineer: Validate the structural integrity of products made of composite materials