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A system and method for post-tensioned tendon monitoring includes at least one optical sensor arranged in monitoring proximity to a post-tensioned tendon, a test instrument in communication with the optical sensor, a processor capable of managing operation of the test instrument, a storage device an

A system and method for post-tensioned tendon monitoring includes at least one optical sensor arranged in monitoring proximity to a post-tensioned tendon, a test instrument in communication with the optical sensor, a processor capable of managing operation of the test instrument, a storage device and a display. They further include a database adapted to contain sensor baseline information and sensor measurement data. The test instrument is capable of sending a first wavelength to the optical sensor and receiving a second wavelength from the optical sensor, wherein at least one of the instrument or the processor is configured to analyze the second wavelength and output sensor measurement data for storage in the database. The processor is configured to calculate an amount of tensile loading which exists in the post-tensioned tendon, based on the sensor measurement data and the sensor baseline data, and to provide an output.

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1. A system for post-tensioned tendon monitoring comprising: at least one optical sensor, which comprises a sensor array, arranged in monitoring proximity to a post-tensioned tendon;wherein said sensor array comprises: a first optical strain gage engaged with a first optical temperature sensor;a sec

1. A system for post-tensioned tendon monitoring comprising: at least one optical sensor, which comprises a sensor array, arranged in monitoring proximity to a post-tensioned tendon;wherein said sensor array comprises: a first optical strain gage engaged with a first optical temperature sensor;a second optical strain gage engaged with a second optical temperature sensor, wherein the gages are connected serially; andwherein data associated with the first and second optical strain gages is capable of being compensated by data associated with the first and second temperature sensors;a test instrument in communication with the at least one optical sensor;a processor capable of managing operation of: the test instrument,a storage device associated with the processor, anda display in communication with the processor;a database stored on the storage device, wherein the database is adapted to contain sensor baseline information and sensor measurement data;wherein the test instrument is capable of sending a first wavelength to the at least one optical sensor and receiving a second wavelength from the at least one optical sensor, wherein at least one of the instrument or the processor is configured to analyze the second wavelength and output sensor measurement data for storage in the database; andwherein the processor is adapted to access the database and configured to calculate an amount of tensile loading which exists in the post-tensioned tendon, based on the sensor measurement data and the sensor baseline data, and to provide an output to the display indicative of a feature of the tensile loading which exists in the post-tensioned tendon. 2. The system of claim 1, wherein the post-tensioned tendon is installed within a concrete structure. 3. The system of claim 2, wherein the concrete structure is a nuclear containment structure. 4. The system of claim 1, wherein the at least one optical sensor is engaged with a post-tensioned tendon anchor. 5. The monitoring system of claim 1, wherein the at least one optical sensor is a fiber Bragg grating strain gage. 6. The monitoring system of claim 1, wherein the test instrument is an optical interrogator. 7. The monitoring system of claim 1, wherein the monitoring system comprises a real-time monitoring system capable of calculating and displaying a feature of the post-tensioned tendon loading in real-time. 8. The monitoring system of claim 1, wherein the storage device is operative to receive and store the sensor measurement data for subsequent display, or for analysis, or for subsequent display and analysis. 9. The system of claim 1, wherein the processor is adapted to initiate an alarm when the post-tensioned tendon tensile loading is at or near a threshold level. 10. The monitoring system of claim 1, wherein the post-tensioned tendon is installed within a concrete structure and the sensor array is arranged in monitoring proximity to a shim of a post-tensioned tendon anchor. 11. The monitoring system of claim 1 further comprising a network interface in communication with the processor, wherein the network interface is adapted to provide remote access to the monitoring system. 12. A method for post-tensioned tendon monitoring comprising: determining an expected value of post-tensioned tendon tensile loading;receiving a signal from at least one optical sensor associated with a post-tensioned tendon assembly including receiving an optical strain gage wavelength representative of strain forces in an anchor portion of a post-tensioned tendon assembly, wherein said receiving a signal includes receiving a signal representative of temperature data associated with the monitored tendon;analyzing the signal to determine a measured value of the post-tensioned tendon tensile loading wherein said analyzing the signal includes compensating the measured value of the post-tensioned tendon tensile loading with the temperature data;optionally comparing the measured value with the expected value; andgenerating a data output. 13. The method of claim 12, wherein analyzing the signal to determine a measured value of post-tensioned tendon loading includes calculating an amount of tensile loading which exists within the post-tensioned tendon based on the anchor strain forces. 14. The method of claim 12 further comprising: establishing a tolerance for the expected value of post-tensioned tendon tensile loading;comparing the measured value of post-tensioned tendon tensile loading with the expected value of post-tensioned tendon tensile loading; andoptionally generating an alarm if the measured value is not within the established tolerance of the expected value. 15. The method of claim 12, wherein the optical strain gage sensor is a fiber Bragg grating strain gage. 16. The method of claim 12, wherein said generating a data output includes providing a data visualization representative of a feature of the post-tensioned tendon tensile loading. 17. The method of claim 16, including providing the data visualization in real-time. 18. The method of claim 12, including storing at least one of data associated with the optical sensor signal, the expected value of post-tensioned tendon tensile loading, and the measured value of post-tensioned tendon tensile loading; for later retrieval, or for visualization, or for analysis, or for later retrieval, visualization, and analysis.