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Blade loss transient dynamics analysis with flexible bladed disk (1983)

Bach, L. ; Storace, A. ; Black, G. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The transient dynamic response of a flexible bladed disk on a flexible rotor in a two rotor system is formulated by modal synthesis and a Lagrangian approach. Only the nonequilibrated one diameter flexible mode is considered for the flexible bladed disk, while the two flexible rotors are represented by their normal modes. The flexible bladed disk motion is modeled as a combination of two one diameter standing waves, and is coupled inertially and gyroscopically to the flexible rotors. Application to a two rotor model shows that a flexible bladed disk on one rotor can be driven into resonance by an unbalance in the other rotor, and at a frequency equal to the difference in the rotor speeds.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: NASA-CR-168176 , NAS 1.26:168176

Format: application/pdf

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2

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Blade loss transient dynamic analysis of turbomachinery (1983)

Gaffney, E. F. ; Black, G. ; Storace, A. F. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Previously cited in issue 17, p. 2687, Accession no. A82-34982

Keywords: AIRCRAFT PROPULSION AND POWER

Type: (ISSN 0001-1452)

Format: text

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3

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Blade loss transient dynamics analysis, volume 2. Task 2: Theoretical and analytical development. Task 3: Experimental verification (1981)

Gaffney, E. F. ; Storace, A. S. ; Bach, L. J. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The component element method was used to develop a transient dynamic analysis computer program which is essentially based on modal synthesis combined with a central, finite difference, numerical integration scheme. The methodology leads to a modular or building-block technique that is amenable to computer programming. To verify the analytical method, turbine engine transient response analysis (TETRA), was applied to two blade-out test vehicles that had been previously instrumented and tested. Comparison of the time dependent test data with those predicted by TETRA led to recommendations for refinement or extension of the analytical method to improve its accuracy and overcome its shortcomings. The development of working equations, their discretization, numerical solution scheme, the modular concept of engine modelling, the program logical structure and some illustrated results are discussed. The blade-loss test vehicles (rig full engine), the type of measured data, and the engine structural model are described.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: NASA-CR-165373-VOL-2 , R81AEG381-VOL-2

Format: application/pdf

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4

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Blade loss transient dynamics analysis, volume 1. Task 1: Survey and perspective (1981)

Gallardo, V. C. ; Stallone, M. J. ; Bach, L. J. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: An analytical technique was developed to predict the behavior of a rotor system subjected to sudden unbalance. The technique is implemented in the Turbine Engine Transient Rotor Analysis (TETRA) computer program using the component element method. The analysis was particularly aimed toward blade-loss phenomena in gas turbine engines. A dual-rotor, casing, and pylon structure can be modeled by the computer program. Blade tip rubs, Coriolis forces, and mechanical clearances are included. The analytical system was verified by modeling and simulating actual test conditions for a rig test as well as a full-engine, blade-release demonstration.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: NASA-CR-165373-VOL-1 , R81AEG381-VOL-1

Format: application/pdf

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Blade loss transient dynamic analysis of turbomachinery (1982)

Gallardo, V. ; Black, G. ; Stallone, M. J. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: This paper reports on work completed to develop an analytical method for predicting the transient non-linear response of a complete aircraft engine system due to the loss of a fan blade, and to validate the analysis by comparing the results against actual blade loss test data. The solution, which is based on the component element method, accounts for rotor-to-casing rubs, high damping and rapid deceleration rates associated with the blade loss event. A comparison of test results and predicted response show good agreement except for an initial overshoot spike not observed in test. The method is effective for analysis of large systems.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: AIAA PAPER 82-1057 , Joint Propulsion Conference; Jun 21, 1982 - Jun 23, 1982; Cleveland, OH

Format: text

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