Range of applications Classical stress analyses entail the prediction and assessment of the deformations and stresses in mechanical parts under static or dynamic load. Nonlinear material or geometric properties are thereby no obstacle. Furthermore, metals, plastics, or fiber-reinforced materials or composites can be handled by these methods.
Vibration analysesinclude modal and frequency response analysis as well as analysis in the area of transients. Stiffness, inertia and damping properties can be used in analysis.
Thermal analysesof stationary or transient processes imply the calculation of heat fluxes induced through temperature differentials, convection, conductance and radiation. Where does the energy originate and where does it go? What stresses arise due to the thermal circumstances? These are questions to which we can provide answers.
Multi-Physicsis the coupling of various field problems. Where empirical and simple analytical models fail, FE methods are applied.
Optimizationof mechanical designs and systems based on FEM modelling is the future. We make savings in material, weight , energy and money!