From wave theory to successful simulation: concepts, physics and numerics related to technical acoustics
Carry out a flow simulation from your professional field and benefit from practical tips and information
Implicit and explicit methods with which to analyze behavior under dynamic influences using FEM
Virtual vs. real test: Simulations and experiments for mechanical, electrical and fluid-dynamic variables
Advanced knowledge to assess and prevent component damage and evaluate potential effects
Learn the theoretical foundations of FEM and modeling approaches for linear stress analyses and heat transfer.
Physical and analytical observation of numerous fluid mechanics and thermodynamics topics for efficient simulations
Introduction to methods of nonlinear dynamics, continuum mechanics and contact formulation, including FE modeling
Formulation of constitutive equations, description of nonlinear material models and numerical use in FEM
Understand mathematics and numerical concepts behind the finite element method and related methods.
Understand numerical concepts behind flow simulation and related processes as well as engineering mathematical problems
Learn physical and numerical knowledge for modeling and dynamic simulation of mechatronic systems.