Rolling phased array ultrasonic scanner

What is claimed is: 1. An ultrasonic scanner comprising: a member having an inspection surface for rolling across a surface of an object to be inspected; an axle attached to the member wherein the member moves relative to the axle during said rolling across the surface of the object to be inspected; a curved transducer housing unit disposed within the member, the curved transducer housing unit being spaced apart from and mounted in transverse relation to the axle, wherein a curvature of the curved transducer housing unit is configured to focus on a common point on the surface of the object to be inspected; electronics hardware disposed within the member, the electronics hardware comprising at least an encoder; a plurality of ultrasonic transducers disposed within the member, the plurality of ultrasonic transducers including at least sixty four ultrasonic transducers, wherein the plurality of ultrasonic transducers are fixed in a curved formation on the curved transducer housing unit such that the plurality of ultrasonic transducers are each aimed at the common point on the surface of the object to be inspected, the curved formation of the plurality of ultrasonic transducers on the curved transducer housing unit facilitating focusing of the plurality of ultrasonic transducers on the common point on the surface of the object, wherein the plurality of ultrasonic transducers comprises a phased array of ultrasonic transducers, and the ultrasonic scanner is configured to activate a first group of the plurality of ultrasonic transducers to inspect at a first inspection angle and a second group of the plurality of ultrasonic transducers to inspect at a second inspection angle, the first group and second group being different groups, wherein activating the different groups of ultrasonic transducers mitigates sensitivity loss of the ultrasonic scanner during inspection of the object; and a signal processing electrical cable, the signal processing electrical cable being electrically coupled to the plurality of ultrasonic transducers and disposed at least partially within the axle. 2. The ultrasonic scanner of claim 1 , wherein the member is filled with an acoustically transmissive fluid. 3. The ultrasonic scanner of claim 2 , wherein the acoustically transmissive fluid is under a pressure such that the inspection surface of the member bows outward relative to the axle. 4. The ultrasonic scanner of claim 2 , wherein the member comprises a cylindrical shape. 5. The ultrasonic scanner of claim 1 , further comprising a transducer housing for fixing the plurality of ultrasonic transducers in the curved formation, the transducer housing being attached to the axle. 6. The ultrasonic scanner of claim 1 , wherein the member comprises a flexible material that conforms to the surface of the object to be inspected. 7. The ultrasonic scanner of claim 1 , further comprising a frame connected to the axle, wherein the frame comprises a handle for a user to grasp while rolling the ultrasonic scanner across the object to be inspected. 8. The ultrasonic scanner of claim 1 , wherein the plurality of ultrasonic transducers are aligned along an axis perpendicular to a longitudinal axis of the member. 9. The ultrasonic scanner of claim 1 , further comprising end caps attached to the axle, wherein the member is attached to the end caps at two opposite ends of the member. 10. An ultrasonic scanner comprising: a cylinder having an inside surface and an outside surface; a pair of end caps, one end cap of the pair of end caps being at each end of the cylinder for enclosing an interior of the cylinder; an axle extending through the pair of end caps and through the interior of the cylinder; a curved transducer housing unit disposed within the cylinder, the curved transducer housing unit being spaced apart from and mounted in transverse relation to the axle, wherein a curvature of the curved transducer housing unit is configured to focus on a common point on a surface of an object to be inspected; electronics hardware disposed within the cylinder, the electronics hardware comprising at least an encoder; an array of ultrasonic transducers disposed in a curved formation on the curved transducer housing unit within the interior of the cylinder, the array of ultrasonic transducers including at least sixty four ultrasonic transducers, wherein the curved transducer housing unit is attached to the axle, wherein each of the ultrasonic transducers is aimed at the common point coincident with the outside surface of the cylinder, wherein the curved formation of the array of ultrasonic transducers on the curved transducer housing unit and the disposition of the array of ultrasonic transducers in the curved transducer housing unit facilitate focusing of the array of ultrasonic transducers on the common point on the outside surface of the cylinder, wherein the array of ultrasonic transducers comprises a phased array of ultrasonic transducers, and wherein the ultrasonic scanner is configured to activate a first group of the phased array of ultrasonic transducers to inspect at a first inspection angle and a second group of the phased array of ultrasonic transducers to inspect at a second inspection angle, the first group and second group being different groups, wherein activating the different groups of ultrasonic transducers mitigates sensitivity loss of the ultrasonic scanner during inspection of an object disposed adjacent to the outside surface of the cylinder; and a signal processing electrical cable, the signal processing electrical cable being electrically coupled to the phased array of ultrasonic transducers and disposed at least partially within the axle. 11. The ultrasonic scanner of claim 10 , wherein the array of ultrasonic transducers is aligned perpendicularly to an axis of the cylinder. 12. The ultrasonic scanner of claim 10 , wherein the interior of the cylinder is filled with an acoustically transmissive fluid. 13. The ultrasonic scanner of claim 12 , wherein the acoustically transmissive fluid is under a pressure such that the outside surface of the cylinder bows outward relative to the axle. 14. The ultrasonic scanner of claim 12 wherein the ultrasonic scanner is configured to manually roll the outside surface of the cylinder over the object to be inspected and to transmit ultrasonic beams generated by the array of ultrasonic transducers into the object to be inspected. 15. The ultrasonic scanner of claim 12 wherein the cylinder comprises an elastomeric material, a rubber material, a polymer material, or a combination thereof. 16. The ultrasonic scanner of claim 14 , further comprising a handle attached to the axle for a user to grasp and manually roll the outside surface of the cylinder over the object to be inspected. 17. An apparatus comprising: a phased array of ultrasonic transducers, the phased array of ultrasonic transducers including at least sixty four ultrasonic transducers; a curved transducer housing unit, wherein the phased array of ultrasonic transducers is fixed in a curved formation within the curved transducer housing unit, wherein each of the transducers is aimed at a common point, wherein the curved formation facilitates focusing of the phased array of ultrasonic transducers on the common point on, and wherein the apparatus is configured to activate a first group of the phased array of ultrasonic transducers to inspect at a first inspection angle and a second group of the phased array of ultrasonic transducers to inspect at a second inspection angle, the first group and second group being diffe