Add to ORKGInternational audienceGrain size effect on the ultrasonic propagation in single phase, untextured and equiaxed polycrystalline materials by numerical modeling is studied. Attenuation levels and backscattered noise signals are calculated in both time and frequency domains according to the response of several receivers. Coherent comparisons are obtained between our numerical results and some well-known classical theories
Three different regimes for scattering of ultrasonic waves in poly-crystalline materials exist, depe...
In microscopically inhomogeneous media ultrasonic scattering at grain and/or phase boundaries causes...
Elastic wave scattering at grain boundaries in polycrystalline media can be quantified to determine ...
International audienceGrain size effect on the ultrasonic propagation in single phase, untextured an...
International audienceThe correlation between ultrasonic wave propagation and polycrystalline micros...
International audienceAn analytical approach to develop explicit formulas of attenuation coefficient...
International audienceFor nondestructive evaluation using laser ultrasonics technique, it is of grea...
Une analyse numérique basée sur la méthode des éléments finis permettant de quantifier les coefficie...
A numerical approach based on the finite element method to quantify ultrasonic attenuation and grain...
Ultrasonic nondestructive testing has been increasingly used to characterize heterogeneities of poly...
International audienceIn some polycrystalline materials, ultrasonic non destructive testing is affec...
39th Annual Review of Progress in Quantative Nondestructive Evaluation (QNDE), Denver, CO, JUL 15-20...
Numerical simulations of ultrasonic propagation and nondestructive testing and materials characteriz...
Three different regimes for scattering of ultrasonic waves in poly-crystalline materials exist, depe...
In microscopically inhomogeneous media ultrasonic scattering at grain and/or phase boundaries causes...
Elastic wave scattering at grain boundaries in polycrystalline media can be quantified to determine ...
International audienceGrain size effect on the ultrasonic propagation in single phase, untextured an...
International audienceThe correlation between ultrasonic wave propagation and polycrystalline micros...
International audienceAn analytical approach to develop explicit formulas of attenuation coefficient...
International audienceFor nondestructive evaluation using laser ultrasonics technique, it is of grea...
Une analyse numérique basée sur la méthode des éléments finis permettant de quantifier les coefficie...
A numerical approach based on the finite element method to quantify ultrasonic attenuation and grain...
Ultrasonic nondestructive testing has been increasingly used to characterize heterogeneities of poly...
International audienceIn some polycrystalline materials, ultrasonic non destructive testing is affec...
39th Annual Review of Progress in Quantative Nondestructive Evaluation (QNDE), Denver, CO, JUL 15-20...
Numerical simulations of ultrasonic propagation and nondestructive testing and materials characteriz...
Three different regimes for scattering of ultrasonic waves in poly-crystalline materials exist, depe...
In microscopically inhomogeneous media ultrasonic scattering at grain and/or phase boundaries causes...
Elastic wave scattering at grain boundaries in polycrystalline media can be quantified to determine ...