Correlating low energy impact damage with changes in modal parameters: diagnosis tools and FE validation

Abstract : This paper presents a basic experimental technique and simplified FE based models for the detection, localization and quantification of impact damage in composite beams around the BVID level. Detection of damage is carried out by shift in modal parameters. Localization of damage is done by a topology optimization tool which showed that correct damage locations can be found rather efficiently for low-level damage. The novelty of this paper is that we develop an All In One (AIO) package dedicated to impact identification by modal analysis. The damaged zones in the FE models are updated by reducing the most sensitive material property in order to improve the experimental/numerical correlation of the frequency response functions. These approximate damage models(in term of equivalent rigidity) give us a simple degradation factor that can serve as a warning regarding structure safety.
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Amir Shahdin, Joseph Morlier, Hanno Niemann, Yves Gourinat. Correlating low energy impact damage with changes in modal parameters: diagnosis tools and FE validation. Structural Health Monitoring, SAGE Publications (UK and US), 2011, 10 (2), pp.199-217. ⟨10.1177/1475921710373297⟩. ⟨hal-01852658⟩

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