A New Ultrasonic Immersion Technique for the Evaluation of Damage Induced Anisotropy in Composite Materials

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dc.contributor.author Castellano, Anna
dc.contributor.author Foti, Pilade
dc.contributor.author Fraddosio, Aguinaldo
dc.contributor.author Marzano, Salvatore
dc.contributor.author Piccioni, Mario Daniele
dc.date.accessioned 2016-06-03T09:09:37Z
dc.date.available 2016-06-03T09:09:37Z
dc.date.issued 2016-05
dc.identifier.uri http://dspace.epoka.edu.al/handle/1/1571
dc.description.abstract We present a theoretical and experimental approach for the characterization of the damage induced anisotropy superimposed to the constitutive anisotropy of fiber-reinforced composite materials. The proposed theoretical model has been developed in the framework of the Continuum Damage Mechanics theory and allows for determining a tensorial damage measure based on the change of the elastic moduli of the composite material. Moreover, the model is general since it is applicable independently of the fibers reinforcement nature, of the presence of cracks, interlaminar voids and delamination, of the geometry of this cracks, and from of failure mechanisms of the composite materials. We perform damage experiments by employing an innovative goniometric device designed and built at our laboratory (Laboratorio “M. Salvati”), and aimed at the mechanical characterization of materials. In particular, by rotating the sample into a water tank, we measure the ultrasonic “natural” velocities of the undamaged composite material along suitable propagation directions. This allow us for classifying the degree of symmetry of the material and for determining the elastic constants, also in highly anisotropic materials. Then we measure the ultrasonic velocities of the artificially damaged composite and we determine again the elastic moduli. The comparison between the elastic moduli of the damaged and the undamaged composite allows us for the characterization of the anisotropic tensorial damage measure. en_US
dc.language.iso en_US en_US
dc.subject Ultrasonic immersion test en_US
dc.subject Wave propagation en_US
dc.subject Damage Mechanics en_US
dc.subject Composite materials en_US
dc.subject Anisotropic Damage en_US
dc.title A New Ultrasonic Immersion Technique for the Evaluation of Damage Induced Anisotropy in Composite Materials en_US
dc.type Article en_US


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  • BCCCE 2016
    3rd International Balkans Conference on Challenges of Civil Engineering

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