Ultrasonic dry coupled wheel probe with a radial transducer

What is claimed is: 1. A transducer module, comprising: a first cylindrical member having a longitudinal axis; a first annular electroplate external to and adjacent to the first cylindrical member; and a second annular electroplate internal to and adjacent to the first cylindrical member, wherein the first and second annular electroplates apply a first electrical signal to the first cylindrical member to generate and emit sound waves in all radial directions relative to the longitudinal axis. 2. The transducer module of claim 1 , wherein the emitted sound waves are ultrasonic waves. 3. The transducer module of claim 1 , wherein the first cylindrical member is composed of a piezoelectric material. 4. The transducer module of claim 1 , further comprising: a second cylindrical member; a third annular electroplate external to and adjacent to the second cylindrical member; and a fourth annular electroplate internal to and adjacent to the second cylindrical member, wherein, responsive to the second cylindrical member receiving a reflection of the sound waves from a test surface, the second cylindrical member vibrates, causing the third and fourth annular electroplates to generate a corresponding second electrical signal. 5. The transducer module of claim 4 , wherein the second cylindrical member is composed of a piezoelectric material. 6. A transducer module, comprising: a transmitting component including: a first cylindrical member having a first longitudinal axis; a first annular electroplate external to and adjacent to the first cylindrical member; and a second annular electroplate internal to and adjacent to the first cylindrical member; a receiving component including: a second cylindrical member having a second longitudinal axis; a third annular electroplate external to and adjacent to the second cylindrical member; and a fourth annular electroplate internal to and adjacent to the second cylindrical member; and an acoustic barrier positioned between the transmitting component and the receiving component, wherein the first and second annular electroplates apply a first electrical signal to the first cylindrical member to generate and emit sound waves from the transmitting component in all radial directions relative to the first longitudinal axis, wherein the acoustic barrier prevents the emitted sound waves from the transmitting component from being received by the receiving component, and wherein, responsive to the receiving component receiving a reflection of the sound waves from a test surface, the second cylindrical member vibrates, causing the third and fourth annular electroplates to generate a corresponding second electrical signal. 7. The transducer module of claim 6 , wherein the emitted sound waves are ultrasonic waves. 8. The transducer module of claim 6 , wherein each of the first and second cylindrical members is composed of a piezoelectric material. 9. The transducer module of claim 6 , wherein each of the first, second, third, and fourth electroplates has an annular shape with a centrally positioned electroplate aperture and a longitudinal electroplate axis coincident with a respective longitudinal cylindrical axis of the first and second cylindrical members. 10. The transducer module of claim 9 , wherein the first and second electroplates are concentric rings; and wherein the third and fourth electroplates are concentric rings. 11. A wheel probe for inspecting a test surface of a structure, with the wheel probe comprising: a transducer module including: a transmitting component including: a first cylindrical member having a first longitudinal axis; a first annular electroplate external to and adjacent to the first cylindrical member; and a second annular electroplate internal to and adjacent to the first cylindrical member; a receiving component including: a second cylindrical member having a second longitudinal axis; a third annular electroplate external to and adjacent to the second cylindrical member; and a fourth annular electroplate internal to and adjacent to the second cylindrical member; and a static acoustic barrier positioned between the transmitting component and the receiving component; a pair of wheel members composed of a predetermined material for acoustically dry coupling the wheel members to the test surface; and a rotating acoustic barrier between the wheel members, forming a wheel which rotates about the transducer, wherein the first and second annular electroplates apply a first electrical signal to the first cylindrical member to generate and emit sound waves from the transmitting component in all radial directions relative to the longitudinal axis, wherein the static and rotating acoustic barriers prevent the emitted sound waves from the transmitting component from being received by the receiving component, and wherein, responsive to the receiving component receiving a reflection of the sound waves from the test surface, the second cylindrical member vibrates, causing the third and fourth annular electroplates to generate a corresponding second electrical signal. 12. The wheel probe of claim 11 , wherein the predetermined material is rubber. 13. The wheel probe of claim 11 , wherein each of the first, second, third, and fourth electroplates has an annular shape with a centrally positioned electroplate aperture and a longitudinal electroplate axis coincident with a respective longitudinal cylindrical axis of the first and second cylindrical members. 14. The wheel probe of claim 13 , wherein the first and second electroplates are concentric rings, and wherein the third and fourth electroplates are concentric rings.