We characterize the elastic response of Apricena marble by using advanced ultrasonic nondestructive techniques. An innovative experimental device for ultrasonic immersion tests is employed for the determination of ultrasonic velocities of waves travelling into the sample for any angle of propagation. The interpretation of the experimental results within the theoretical framework of wave propagation in elastic materials allows for both the classification of the anisotropy and the determination of the elastic moduli.
Mechanical characterization of Apricena marble by ultrasonic immersion tests / Castellano, A.; Foti, P.; Fraddosio, A.; Marzano, S.; Piccioni, Md. (KEY ENGINEERING MATERIALS). - In: Structural monitoring of ARTistic and historical BUILding testimonies: selected, peer reviewed papers from the Final International Conference SMART BUILT 2014 / [a cura di] D. Foti. - STAMPA. - Pfaffikon, Switzerland : Trans Tech Publications, 2014. - ISBN 978-3-03835-216-7. - pp. 109-116 [10.4028/www.scientific.net/KEM.628.109]
Mechanical characterization of Apricena marble by ultrasonic immersion tests
Castellano, A.;Foti, P.;Fraddosio, A.;Marzano, S.;Piccioni, MD.
2014-01-01
Abstract
We characterize the elastic response of Apricena marble by using advanced ultrasonic nondestructive techniques. An innovative experimental device for ultrasonic immersion tests is employed for the determination of ultrasonic velocities of waves travelling into the sample for any angle of propagation. The interpretation of the experimental results within the theoretical framework of wave propagation in elastic materials allows for both the classification of the anisotropy and the determination of the elastic moduli.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
