Non-Linear Experimental Modal Analysis and Application to Satellite Vibration Test Data

Abstract eng:
The DYNAMITED project realised by a European space industry and university team associated around EADS ASTRIUM and funded by the European Space Agency (ESA) aimed to assess and improve dynamic test data. In the field of post test activities, the detection, characterisation, identification and prediction of the non-linear behaviour of space structures during tests is of prime importance. The paper therefore starts with a short overview of such methods. Present evaluation methods for spacecraft vibration tests are based on the assumption of linear structural behaviour. The resonance shifts and frequency response (FRF) peak variations observed in the case of non-linear structural behaviour are generally not reflected in practice by non-linear evaluation procedures. In order to avoid overloading of the structure during the qualification test on a shaking table the dynamic response is generally controlled at specified levels and locations by input notching. This approach generates an effectively quasi linear structural behaviour at the different input levels which enables the utilization of classical linear modal extraction tools to be applied separately at each level. However, the measured dynamic responses (transmissibilities) reveal peak shifts and amplitude changes depending on the input level of the base excitation. In the paper an approach is presented where three different input levels are used with the response levels controlled to be constant within a narrow frequency band around the dominant resonances. The premises of a technique will be described and how its aim of predicting the responses to not measured input

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