Identification of water pipe material based on stress wave propagation

The invention claimed is: 1. A nondestructive evaluation method for determining a material used in a below ground service line comprising: inserting a probe with a wave measurement device therein into an area corresponding to a location of a service line; generating a service line wave through an exposed portion of the service line using a vibratory shaker; detecting, by the wave measurement device, at least two substrate waves created by the service line wave passing through the service line and into a substrate; identifying, by a data acquisition system, a velocity of the service line wave using the detected at least two substrate waves; comparing the velocity of the service line wave to a known set of wave velocities corresponding to different service line materials; and identifying a service line material in the service line by comparing the velocity of the service line wave with the known set of wave velocities corresponding to different service line materials. 2. The nondestructive evaluation method of claim 1 , wherein the detecting is done using more than one probe. 3. The nondestructive evaluation method of claim 2 , wherein at least two probes are spaced at a distance from one another. 4. The nondestructive evaluation method of claim 3 , wherein a first probe and a second probe of the probes detect the substrate wave at different times. 5. The nondestructive evaluation method of claim 4 , further comprising calculating the velocity of the service line wave by dividing the distance by a differences in the different times. 6. The nondestructive evaluation method of claim 2 , wherein the wave measurement devices comprise accelerometers. 7. The nondestructive evaluation method of claim 6 , wherein the accelerometers are located within a protective sheath. 8. The nondestructive evaluation method of claim 1 , wherein the generation of a service line wave is done using a vibratory shaker attached to the service line. 9. The nondestructive evaluation method of claim 1 , wherein the service line wave has a frequency of between 0.01 kHz to 1,000 kHz. 10. The nondestructive evaluation method of claim 1 , wherein an amplitude of the service line is adjusted. 11. A nondestructive evaluation apparatus for determining a material used in a below ground service line comprising: a probe with a wave measurement device therein, wherein each probe is configured for insertion into an area corresponding to a location of a service line; a vibratory shaker that generates a service line wave through an exposed portion of the service line; a wave measurement device that detects at least two substrate waves created by the service line wave passing through the service line and into a substrate; a data acquisition system that identifies a velocity of the service line wave using the detected at least two substrate waves; and a processor that compares the velocity of the service line wave to a known set of wave velocities corresponding to different service line materials and identifies a service line material in the service line by comparing the velocity of the service line wave with the known set of wave velocities corresponding to different service line materials. 12. The nondestructive evaluation apparatus of claim 11 , further comprising more than one probe. 13. The nondestructive evaluation apparatus of claim 12 , wherein at least two probes are spaced at a distance from one another. 14. The nondestructive evaluation apparatus of claim 13 , wherein a first probe and a second probe of the probes detect the substrate wave at different times. 15. The nondestructive evaluation apparatus of claim 14 , further comprising calculating the velocity of the service line wave by dividing the distance by a differences in the different times. 16. The nondestructive evaluation apparatus of claim 11 , wherein the wave measurement device is an accelerometer. 17. The nondestructive evaluation apparatus of claim 16 , wherein the probe comprises a cavity in which the accelerometer is located. 18. The nondestructive evaluation apparatus of claim 11 , wherein the probe comprises a hardened tip. 19. The nondestructive evaluation apparatus of claim 11 , wherein the service line wave has a frequency of between 0.01 kHz to 1,000 kHz. 20. The nondestructive evaluation apparatus of claim 11 , wherein the vibratory shaker adjusts an amplitude of the service line wave.