Natural frequency changes due to damage in composite beams

Transversal cracks in structures affect their stiffness as well as the natural frequency values. This paper presents a research performed to find the way how frequencies of sandwich beams change by the occurrence of damage. The influence of the locally stored energy, for ten transverse vibration mod...

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Veröffentlicht in:	Journal of physics. Conference series 2015-07, Vol.628 (1), p.12091
Hauptverfasser:	Negru, I, Gillich, G R, Praisach, Z I, Tufoi, M, Gillich, N
Format:	Artikel
Sprache:	eng
Schlagworte:	Beams (structural) Bending moments Composite beams Damage detection Finite element method Fracture mechanics Frequency shift Internal energy Multilayers Physics Resonant frequencies Sandwich structures Stiffness Stress intensity factors Transverse oscillation Vibration mode
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creator	Negru, I Gillich, G R Praisach, Z I Tufoi, M Gillich, N
description	Transversal cracks in structures affect their stiffness as well as the natural frequency values. This paper presents a research performed to find the way how frequencies of sandwich beams change by the occurrence of damage. The influence of the locally stored energy, for ten transverse vibration modes, on the frequency shifts is derived from a study regarding the effect of stiffness decrease, realized by means of the finite element analysis. The relation between the local value of the bending moment and the frequency drop is exemplified by a concrete case. It is demonstrated that a reference curve representing the damage severity exists whence any frequency shift is derivable in respect to damage depth and location. This curve is obtained, for isotropic and multi-layer beams as well, from the stored energy (i.e. stiffness decrease), and is similar to that attained using the stress intensity factor in fracture mechanics. Also, it is proved that, for a given crack, irrespective to its depth, the frequency drop ratio of any two transverse modes is similar. This permitted separating the effect of damage location from that of its severity and to define a Damage Location Indicator as a sequence of squared of the normalized mode shape curvatures.
doi_str_mv	10.1088/1742-6596/628/1/012091
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subjects	Beams (structural) Bending moments Composite beams Damage detection Finite element method Fracture mechanics Frequency shift Internal energy Multilayers Physics Resonant frequencies Sandwich structures Stiffness Stress intensity factors Transverse oscillation Vibration mode
title	Natural frequency changes due to damage in composite beams
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