Accession Number : ADA315592
Title : Influence of Surface Roughness on Guided Waves in Plates.
Descriptive Note : Final rept. 1 Apr 95-31 Mar 96,
Corporate Author : IOWA STATE UNIV AMES CENTER FOR NONDESTRUCTIVE EVALUATION
Personal Author(s) : Chimenti, Dale E. ; Lobkis, Oleg I.
PDF Url : ADA315592
Report Date : 30 APR 1996
Pagination or Media Count : 66
Abstract : This report covers fundamental research performed on the effect of surface roughness on ultrasonic guided waves in plates. The effort reported here consists both of experiments and calculations. The measurements exploit guided waves generated in either immersion or with contact coupling. Samples have included aluminum prepared by indenting or sandblasting. The sandblasted specimens have been independently profiled to determine rms roughness. A simple model calculation is also described which, using analytical methods only, has led to a successful approximate theoretical description of guided wave attenuation caused by scattering from randomly rough surfaces. The model takes advantage of the Kirchhoff approximation, in which the rough surface wave interaction is assumed to be restricted to the signal phase. This phase screen method is applied to guided plate waves through Auld's transverse resonance approach to derive a dispersion relation of the rough waveguide. This calculation is generalized to fluid immersed plates having only a single rough surface either on the same or opposite side of the plate as the ultrasonic transducers. Detailed comparisons between the results of the experimental study and predictions of the model calculations show good agreement, generally demonstrating the utility of the theoretical approach over a reasonably wide range of variation of the experimental parameters.
Descriptors : *SURFACE ACOUSTIC WAVE DEVICES, COUPLING(INTERACTION), ALUMINUM ALLOYS, ACOUSTIC WAVES, SURFACE ROUGHNESS, WAVEGUIDES, ULTRASONICS, ELECTROACOUSTIC TRANSDUCERS, DISPERSION RELATIONS.
Subject Categories : Line, Surface and Bulk Acoustic Wave Devices
Distribution Statement : APPROVED FOR PUBLIC RELEASE