Institute of Mechanics

Research on dynamic systems

• Characterization of rotordynamic behaviour (centrifuges, shafts, turbochargers etc.)
• Modeling nonlinear vibration processes e.g. through bearings, contact, material properties etc.
• Experimental determination of stiffness and damping characteristics
• Measurement of structural vibrations in stationary AND rotating systems
• Diagnosis of rolling bearing damage
• more information ... 
  

Fluid-structure interaction

• Dynamic FEM simulation
• Multi-body simulation with rigid and elastic components
• Integration of non-linear bearing properties (sleeve bearings, rolling bearings, air bearings, etc.)
• Holistic description of structure and bearings
• Modeling of temperature changes in bearings and structure
• Interaction between air flow and structural vibration
• more information ...
  

Balancing

• Numerical and experimental analysis of unbalance states
• Design of processes for rigid and elastic balancing
• Design of automatic balancing units (fluid balancer or ball balancer)
• more information ...

Predictive simulation of friction welding

• Numerical simulation of manufacturing processes, in particular rotary friction welding
• Holistic combination of approaches of technical mechanics, numerics, thermodynamics, tribology and materials engineering
• Analysis, design and optimization of the friction welding process
• Experimental identification of the thermomechanical material properties
• more information ...

Analysis of suspension components / e-mobility

• Multi-body simulation of vehicle dynamics resulting from changes in mass distribution in e-mobility (batteries, drive concepts)
• Experimental determination of wheel forces using a 6-component measuring wheel
• Strain gauge measurements for the determination of chassis loads
• more information ...

see also www.forschung-sachsen-anhalt.de