Ultrasonic inspection probe assembly

What is claimed is: 1. An ultrasonic inspection probe assembly comprising: a backing block; a face layer; a flexible ultrasonic transducer array located between the backing block and the face layer, the flexible ultrasonic transducer array having a top surface and a bottom surface joined by at least one side surface; and a flexible ultrasonic transducer array frame located between the backing block and the face layer, the flexible transducer array frame comprising a first surface, a second surface opposite the first surface, and an opening extending entirely through a thickness of the flexible ultrasonic transducer array frame from the first surface to the second surface, wherein the flexible ultrasonic transducer array is positioned within the opening such that the flexible ultrasonic transducer array frame encircles only the at least one side surface of the flexible ultrasonic transducer array, the flexible ultrasonic transducer array frame surrounds each side surface of the flexible ultrasonic transducer array, and the flexible ultrasonic transducer array is coplanar with the flexible ultrasonic transducer array frame. 2. The ultrasonic inspection probe assembly of claim 1 , wherein the flexible ultrasonic transducer array and the flexible ultrasonic transducer array frame are bonded the backing block and the face layer with an epoxy to form an acoustic stack. 3. The ultrasonic inspection probe assembly of claim 1 , wherein the flexible ultrasonic transducer array is a linear phased array. 4. The ultrasonic inspection probe assembly of claim 1 , wherein the flexible ultrasonic transducer array is a matrix phased array. 5. The ultrasonic inspection probe assembly of claim 1 , wherein the flexible ultrasonic transducer array is formed from a piezo-ceramic material. 6. The ultrasonic inspection probe assembly of claim 1 , wherein the flexible ultrasonic transducer array frame comprises spring steel. 7. The ultrasonic inspection probe assembly of claim 1 , wherein a thickness of the flexible ultrasonic transducer array is the same as a thickness of the flexible ultrasonic transducer array frame. 8. The ultrasonic inspection probe assembly of claim 1 , wherein the flexible ultrasonic transducer array frame is flexed in an original position when no forces are applied to the ultrasonic inspection probe assembly. 9. The ultrasonic inspection probe assembly of claim 8 , wherein the flexible ultrasonic transducer array frame is configured to return to the original position when no forces are applied to the ultrasonic inspection probe assembly. 10. An ultrasonic inspection probe assembly comprising: a backing block; a face layer; a flexible ultrasonic transducer array formed from a piezo-ceramic material and located between the backing block and the face layer, the flexible ultrasonic transducer array having a top surface and a bottom surface joined by at least one side surface; and a flexible ultrasonic transducer array frame located between the backing block and the face layer, the flexible transducer array frame comprising a first surface, a second surface opposite the first surface, and an opening extending entirely through a thickness of the flexible ultrasonic transducer array frame from the first surface to the second surface, wherein the flexible ultrasonic transducer array is positioned within the opening such that the flexible ultrasonic transducer array frame surrounds encircles only the at least one side surface of the flexible ultrasonic transducer array, the flexible ultrasonic transducer array frame surrounds each side surface of the flexible ultrasonic transducer array, and the flexible ultrasonic transducer array and the flexible ultrasonic transducer array frame are bonded to the backing block and the face layer with an epoxy to form an acoustic stack. 11. The ultrasonic inspection probe assembly of claim 10 , wherein the flexible ultrasonic transducer array is a linear phased array. 12. The ultrasonic inspection probe assembly of claim 10 , wherein the flexible ultrasonic transducer array is a matrix phased array. 13. The ultrasonic inspection probe assembly of claim 10 , wherein the flexible ultrasonic transducer array frame comprises spring steel. 14. The ultrasonic inspection probe assembly of claim 10 , wherein the flexible ultrasonic transducer array frame is flexed in an original position when no forces are applied to the ultrasonic inspection probe assembly. 15. The ultrasonic inspection probe assembly of claim 14 , wherein the flexible ultrasonic transducer array frame is configured to return to the original position when no forces are applied to the ultrasonic inspection probe assembly. 16. The ultrasonic inspection probe assembly of claim 1 , wherein the flexible ultrasonic transducer array frame is disposed to overlap neither the backing block nor the face layer in a vertical direction when the ultrasonic inspection probe assembly is viewed from the side. 17. The ultrasonic inspection probe assembly of claim 1 , wherein a width of the backing block is equal to a width of the face layer, and the respective widths of the backing block and the face layer are greater than a width of the flexible ultrasonic transducer array. 18. The ultrasonic inspection probe assembly of claim 1 , wherein the flexible ultrasonic transducer array and the flexible ultrasonic transducer array frame are each formed with a uniform thickness, and the uniform thickness of the flexible ultrasonic transducer array is equal to the uniform thickness of the flexible ultrasonic transducer array frame.