Mode-converted ultrasonic scattering in polycrystals with elongated grains

Authors

Andrea P. Arguelles, U.S. Army Research Laboratory, Aberdeen
Christopher M. Kube, U.S. Army Research Laboratory, Aberdeen
Ping Hu, Wuhan University
Joseph A. Turner, University of Nebraska-LincolnFollow

Date of this Version

2016

Citation

J. Acoust. Soc. Am. 140 (3), September 2016

Comments

Copyright 2016 Acoustical Society of America

Abstract

Elastic wave scattering is used to study polycrystalline media for a wide range of applications. Received signals, which include scattering from the randomly oriented grains comprising the polycrystal, contain information from which useful microstructural parameters may often be inferred. Recently, a mode-converted diffuse ultrasonic scattering model was developed for evaluating the scattered response of a transverse wave from an incident longitudinal wave in a polycrystalline medium containing equiaxed single-phase grains with cubic elastic symmetry. In this article, that theoretical mode-converted scattering model is modified to account for grain elongation within the sample. The model shows the dependence on scattering angle relative to the grain axis orientation. Experimental measurements were performed on a sample of 7475-T7351 aluminum using a pitch-catch transducer configuration. The results show that the mode-converted scattering can be used to determine the dimensions of the elongated grains. The average grain shape determined from the experimental measurements is compared with dimensions extracted from electron backscatter diffraction, an electron imaging technique. The results suggest that mode-converted diffuse ultrasonic scattering has the potential to quantify detailed information about grain microstructure.