FEM simulations reduce development times

With the finite element method, the design of parts can be improved in every detail. This optimization procedure especially serves for the improvement of strength and material efficiency. As an input parameter for the simulation, a 3D model of the system is required first. Depending on the formulated objectives, further input parameters may then be integrated intthe calculations. REUTER TECHNOLOGIE has already used the FEM analysis for many years toptimize our own arts. Use our know-how and our experience timprove your products as well!

Material and product optimization with FEM simulations
Material and product optimization with FEM simulations

Services offered by REUTER TECHNOLOGIE for FEM simulation

  • Structural analysis
    • Input parameter: 3D – CAD model
    • In the FEM, the model is exposed tloads, meshed and calculated
    • Output parameter: Stress range of the component
    • Evaluation and analysis of the spectrum by our engineers
  • Frequency analysis
    • Input parameter: 3D – CAD model
    • In the FEM, the model is meshed and calculated
    • Output parameter: Natural frequency of the component
    • Evaluation and analysis of the spectrum by our engineers
  • Thermodynamic calculations
    • Input parameter: 3D – CAD model
    • In the FEM, the model is exposed tthe input parameters, meshed and calculated
    • Output parameter: Heat spectrum of the component
    • Evaluation and analysis of the spectrum by our engineers
  • Calculation of electromagnetic fields
    • Input parameter: 3D – CAD model
    • In the FEM, the model is exposed tthe input parameters, meshed and calculated
    • Output parameter: Behaviour of the component in the electromagnetic field
    • Evaluation and analysis of the results by our engineers
  • Flow analysis
    • Input parameter: 3D – CAD model
    • In the FEM, the model is exposed tthe input parameters, meshed and calculated
    • Output parameter: Flow behaviour inside the component
    • Evaluation and analysis of the results by our engineers
  • Movement of charge carriers in electromagnetic fields
    • Input parameter: 3D – CAD model
    • In the FEM, the model is exposed tthe input parameters, meshed and calculated
    • Output parameter: Flow behaviour inside the component
    • Evaluation and analysis of the results by our engineers
  • RF propagation in waveguides
    • Input parameter: 3D – CAD model
    • In the FEM, the model is exposed tthe input parameters, meshed and calculated
    • Output parameter: Waveguide behaviour depending on frequencies
    • Evaluation and analysis of the results by our engineers

For a good FEM analysis, twfactors are significant: A realistic system mapping in the simulation model as well as an intelligent evaluation of the results. Both factors require a detailed knowledge and a longstanding experience. REUTER TECHNOLOGIE’s customers can rely on both.
From the setup of a simulation up tthe interpretation of the results and their implementation in the design model, such projects are accompanied by us.