ULTRASONIC ANISOTROPIC PHASE-VELOCITY DETERMINATION WITH THE RADON TRANSFORMATION

Coplanar arrays of small longitudinal ultrasonic transducers acquire a set of wave forms which are initially plotted as an amplitude image i n the offset-time domain. This amplitude image is then mapped to the i ntercept time-horizontal slowness (tau-p) domain via a slant-stack Rad on transformation. The shape of the locus of these arrivals in tau-p s pace directly provides information on the propagation angle-dependent phase velocities in an anisotropic medium. The method is applied to an isotropic acrylic and an anisotropic laminate with orthorhombic symme try, The method allows determination of the phase velocities over an 8 0 degrees range of propagation angles. The acrylic is isotropic with a phase velocity of 2780 m/s which differs little from that determined in a conventional pulse transmission. The phase velocities versus prop agation angle were measured in three planes of symmetry and in one off -symmetry plane in the laminate. Anisotropies of up to 22% over an 80 degrees range of propagation angles were found in the planes perpendic ular to the layering. The plane containing the layering was only weakl y anisotropic with velocities dependent on the weave of the fiber mats . (C) 1997 Acoustical Society of America.