Current Federal Aviation Administration (FAA) rotor design certification practices risk assessment using a probabilistic framework focused on only the life-limiting defect location of a component. This method generates conservative approximations of the operational risk. The first section of this article covers a discretization method, which allows for a transition from this relative risk to an absolute risk where the component is discretized into regions called zones. General guidelines were established for the zone-refinement process based on the stress gradient topology in order to reach risk convergence. The second section covers a risk assessment method for predicting the total fatigue life due to fatigue induced damage. The total fati...
The life prediction of critical gas turbine engine components is carried out using a bank of laborat...
The application of probabilistic methods to the life prediction of fatigue vulnerable structures is ...
Rotor disks for gas turbines are heavy components and are usually designed following a safe-life app...
Current Federal Aviation Administration (FAA) rotor design certification practices risk assessment u...
International audienceThere is an economic need to extend the useful life of jet engine rotors. Reti...
Maintaining the component service life beyond its historical limits requires the ability to accurate...
The presence of rare metallurgical or manufacturing anomalies in aircraft turbine rotors/disks may c...
Rotor discs for gas turbines are heavy components usually designed following a safe-life approach, w...
Turbine engine disk life prediction and understanding the associated risk remains a significant chal...
Gas turbine discs are heavily loaded due to centrifugal and thermal loads and are therefore designed...
Probabilistic fracture mechanics is a well-established method for predicting the probability-of-frac...
This paper describes the results of a case study on the use of physics based prognosis to deal with ...
The life prediction of critical gas turbine engine components is carried out using a bank of laborat...
The application of probabilistic methods to the life prediction of fatigue vulnerable structures is ...
Rotor disks for gas turbines are heavy components and are usually designed following a safe-life app...
Current Federal Aviation Administration (FAA) rotor design certification practices risk assessment u...
International audienceThere is an economic need to extend the useful life of jet engine rotors. Reti...
Maintaining the component service life beyond its historical limits requires the ability to accurate...
The presence of rare metallurgical or manufacturing anomalies in aircraft turbine rotors/disks may c...
Rotor discs for gas turbines are heavy components usually designed following a safe-life approach, w...
Turbine engine disk life prediction and understanding the associated risk remains a significant chal...
Gas turbine discs are heavily loaded due to centrifugal and thermal loads and are therefore designed...
Probabilistic fracture mechanics is a well-established method for predicting the probability-of-frac...
This paper describes the results of a case study on the use of physics based prognosis to deal with ...
The life prediction of critical gas turbine engine components is carried out using a bank of laborat...
The application of probabilistic methods to the life prediction of fatigue vulnerable structures is ...
Rotor disks for gas turbines are heavy components and are usually designed following a safe-life app...