Archivio Istituzionale della RicercaThe nonlinear elastic response of consolidated granular or damaged materials is the result of the combination of nonlinear attenuation and velocity, coupled with hysteresis, which is linked to non equilibrium effects (often termed conditioning). Thus, a preliminary step towards the comprehension of the physical mechanisms responsible of the nonlinear elastic behaviours consists in quantifying and separating the various contributions. To this purpose, an approach based on a semi-analytical treatment of signals resulting from a monochromatic continuous wave excitation can be successfully implemented. Its validation is discussed here, applying the proposed approach to the analysis of numerical data obtained by using a finite difference spring model code. The accuracy, sensibility and robustness of the protocol are verified in different nonlinear conditions
Analysis of Elastic Nonlinearity Using Continuous Waves: Validation and Applications / Di Bella, Angelo; Gliozzi, Antonio S.; Scalerandi, Marco; Tortello, Mauro. - In: APPLIED SCIENCES. - ISSN 2076-3417. - STAMPA. - 9:24(2019), p. 5332. [10.3390/app9245332]
Analysis of Elastic Nonlinearity Using Continuous Waves: Validation and Applications
Di Bella, Angelo;Gliozzi, Antonio S.;Scalerandi, Marco;Tortello, Mauro
2019
Abstract
The nonlinear elastic response of consolidated granular or damaged materials is the result of the combination of nonlinear attenuation and velocity, coupled with hysteresis, which is linked to non equilibrium effects (often termed conditioning). Thus, a preliminary step towards the comprehension of the physical mechanisms responsible of the nonlinear elastic behaviours consists in quantifying and separating the various contributions. To this purpose, an approach based on a semi-analytical treatment of signals resulting from a monochromatic continuous wave excitation can be successfully implemented. Its validation is discussed here, applying the proposed approach to the analysis of numerical data obtained by using a finite difference spring model code. The accuracy, sensibility and robustness of the protocol are verified in different nonlinear conditions
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https://hdl.handle.net/11583/2778132