Micromechanical approach for the analysis of wave propagation in particulate composites
Cristhian Fernando Rojas-Cristancho (LEM3), Florence Dinzart (LEM3),, Octavio Andr\'es Gonz\'alez Estrada (GIEMA)

TL;DR
This paper presents a micromechanical model to analyze wave propagation in particulate composites, focusing on how composite microstructure influences ultrasonic signal amplification for non-destructive testing.
Contribution
It introduces a dynamic self-consistent approach to study wave behavior in viscoelastic particulate composites, linking microstructure to wave propagation characteristics.
Findings
Microstructure affects wave amplification in composites.
The model predicts how inclusions influence ultrasonic signals.
Results guide optimal composite design for NDT applications.
Abstract
Laser ultrasonic non-destructive testing is widely used for the inspection of mechanical structures. This method uses the propagation of ultrasonic guided waves (UGW) in the media. For this purpose, it has been demonstrated that the addition of a thin composite layer between the laser source and the structure for inspection is necessary. Consequently, this composite is an optoacoustic transducer composed of an absorption material such as carbon for inclusions and an expanding material such as an elastomer for the matrix. Thus, optimal fabrication of this composite should enable the amplification of the signal for inspection. Indeed, experimental research has demonstrated that variation in the volume fraction of carbon inclusions, their shape, and the nature of the matrix, affect the amplification of the signal directly. The aim of this study is to analyse the wave propagation in…
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