IABG - Vibration testing

For vibration testing we have seven electrodynamic and multiple hydraulic vibration test facilities (single-axis and multi-axis, some combined with temperature/climate) with different bench sizes and force vectors.

All the test facilities are equipped with high-performance control and measuring systems which cover all possible types of vibration testing. Some of our facilities are equipped for combined vibration and temperature testing.

Single-axis loading

The vibration test facilities are fitted with standard test harnesses and sliding beds for single-axis loading of test items on the three orthogonal axes. Three facilities can be operated with climate chambers and an adjustable temperature range of -70°C to +180°C.

We also provide special tests on request including resonance search and shock tests, for example, as well as tests of short or long duration and particularly high test levels (as from 30 g sine / 20 g noise).

Vibration and shock testing

Vibration (sine, random, transients, sine on noise)
Shock and drop shock tests
Measurement of dynamic responses in terms of acceleration, strain and force
Combined temperature and vibration tests
Shock response spectrum tests (SRS tests)
Monitoring the functions of test items under dynamic loading
Long-duration tests with varying temperature, relative humidity, vibration profile and power supply as well as supply of cooling air
Design and construction of test equipment
Compilation of test regulations

Multi-axis loading

Vibration tests for seismic qualification on the hydraulic multi-axis vibration table - HyMAS

Our hydraulic 3 axis vibration shaker is primarily for seismic qualification or for testing the fatigue strength of components and systems (up to 14 t) from the energy sector for ensuring proper function in the case of vibrations, earthquakes and its impacts.

Vehicles and their components are also exposed to different vibration loads when in use. These arise from uneven road surfaces, engine vibrations or accident-like events. Vibration loads occur in particular when driving over long periods. In order to test the proper functioning and durability both of complete vehicles and their components, you can use our hydraulic multi-axis seismic table to apply these loads in different ways. This can save expensive and time-consuming endurance assays on test tracks. The time-history is reproduced in condensed form.

The IABG is accredited in vibration testing and earthquake simulation in compliance with DIN EN ISO 17025. In this way we fully meet today's high demands for quality. Our test facility has four vertical and three horizontal hydraulic cylinders which permit spatial movement in all six degrees of freedom.

Normally, vibration loads occur spatially and randomly. Since test items have to be tested according to their mounting and placement, we use simultaneous multi-axis excitation in our experimental vibration testing.

Shake table tests for simulating operating loads in up to 6 degrees of freedom for:

Cars, commercial vehicles and large vehicle components
Lorry engines, transport containers
Telecommunications facilities
Energy generation and transmission components
Power plant switching stations, cooling units and emergency power supply units

Used for:

Operational load follow-up tests
Simulating transport loads and behaviour under poor road conditions
Reproduction of transient events
Simulating gusts of wind, plane crashes, break-up of parts
Simulation of earthquakes
Synthetic design/safety and real-time earthquakes

Download Technical Data: Vibration table HyMAS

Tri-axial vibration tests on Light Multi Axial Shaker - LiMAS

with combined environmental simulation IABG Fatigue Strength Laboratory

Mehrachsige Schwingungsprüfung - LiMAS — Multi-axis vibration test - LiMAS

With the multi-axis 6DOF vibration test bench LiMAS it will be possible to realize accelerations of up to 130 m/s² within a frequency range of 0.5 to 200 Hz and a maximum load of 1000 kg. The integrated climatic chamber allows a wide variety of environmental conditions, as these may significantly influence the product behavior.

Our fatigue strength laboratory is DIN EN ISO 17025 accredited, enabling us to meet and provide the highest quality standards to our customers.

FIELDS OF APPLICATION:

Aerospace
Simulation of transient loads (e.g. windmilling tests):

Fan Blade Out
Sustained Engine Imbalance

Automotive
Vibration test of automotive (sinus, random noise and road load simulations, etc.) commercial (transport simulations, rough road track, etc.) vehicle components: