Title :
Stress wave analysis of turbine engine faults
Author_Institution :
SWANTECH LLC, Lauderdale, FL, USA
Abstract :
Stress Wave Analysis (SWAN) provides real-time measurement of friction and mechanical shock in operating machinery. This high frequency acoustic sensing technology filters out background levels of vibration and audible noise, and provides a graphic representation of machine health. By measuring shock and friction events, the SWAN technique is able to detect wear and damage at the earliest stages and is able to track the progression of a defect throughout the failure process. This is possible because as the damage progresses, the energy content of friction and shock events increases. This `stress wave energy´ is then measured and tracked against normal machine operating conditions. This paper describes testing that was conducted on several types of aircraft and industrial gas turbine engines to demonstrate SWAN´s ability to accurately detect a broad range of discrepant conditions and characterize the severity of damage
Keywords :
acoustic transducers; aerospace engines; aircraft testing; friction; gas turbines; shock measurement; stress analysis; wear; SWAN technique; energy content; failure process; friction; gas turbine engines; high frequency acoustic sensing technology; machine health; mechanical shock; operating machinery; real-time measurement; shock; stress wave analysis; turbine engine faults; wear; Acoustic measurements; Electric shock; Engines; Filters; Frequency; Friction; Machinery; Mechanical variables measurement; Stress measurement; Turbines;
Conference_Titel :
Aerospace Conference Proceedings, 2000 IEEE
Conference_Location :
Big Sky, MT
Print_ISBN :
0-7803-5846-5
DOI :
10.1109/AERO.2000.877885
