The effect of intentional mistuning has been analyzed for an axial turbocharger blisk with the objective of limiting the forced response due to low engine order excitation (LEO). The idea behind the approach was to increase the aerodynamic damping for the most critical fundamental mode in a way that a safe operation is ensured without severely losing aerodynamic performance. Apart from alternate mistuning, a more effective mistuning pattern is investigated, which has been derived by means of optimization employing genetic algorithms. In order to keep the manufacturing effort as small as possible, only two blade different geometries have been allowed, which means that an integer optimization problem has been formulated. Two blisk prototypes have been manufactured for purpose of demonstrating the benefit of the intentional mistuning pattern identified in this way: A first one with and a second one without employing intentional mistuning. The real mistuning of the prototypes has been experimentally identified. It is shown that the benefit regarding the forced response reduction is retained in spite of the negative impact of unavoidable additional mistuning due to the manufacturing process. Independently, further analyzes have been focused on the robustness of the solution by considering increasing random structural mistuning and aerodynamic mistuning as well. The latter one has been modeled by means of varying aerodynamic influence coefficients (AIC) as part of Monte Carlo simulations. Reduced order models have been employed for these purposes.
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January 2019
Research-Article
Forced Response Reduction of a Blisk by Means of Intentional Mistuning
Bernd Beirow,
Bernd Beirow
Mem. ASME
Chair of Structural Mechanics
and Vehicle Vibrational Technology,
Brandenburg University of Technology,
Siemens-Halske-Ring 14,
Cottbus D-03046, Germany
e-mail: beirow@b-tu.de
Chair of Structural Mechanics
and Vehicle Vibrational Technology,
Brandenburg University of Technology,
Siemens-Halske-Ring 14,
Cottbus D-03046, Germany
e-mail: beirow@b-tu.de
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Arnold Kühhorn,
Arnold Kühhorn
Mem. ASME
Chair of Structural Mechanics
and Vehicle Vibrational Technology,
Brandenburg University of Technology,
Cottbus D-03046, Germany
e-mail: kuehhorn@b-tu.de
Chair of Structural Mechanics
and Vehicle Vibrational Technology,
Brandenburg University of Technology,
Siemens-Halske-Ring 14
,Cottbus D-03046, Germany
e-mail: kuehhorn@b-tu.de
Search for other works by this author on:
Felix Figaschewsky,
Felix Figaschewsky
Chair of Structural Mechanics
and Vehicle Vibrational Technology,
Brandenburg University of Technology,
Cottbus D-03046, Germany
e-mail: Felix.figascheswky@b-tu.de
and Vehicle Vibrational Technology,
Brandenburg University of Technology,
Siemens-Halske-Ring 14
,Cottbus D-03046, Germany
e-mail: Felix.figascheswky@b-tu.de
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Oleg V. Repetckii
Oleg V. Repetckii
Engineering Faculty,
Irkutsk State Agrarian University,
Irkutsk 664038, Russia
e-mail: repetckii@igsha.ru
Irkutsk State Agrarian University,
Irkutsk 664038, Russia
e-mail: repetckii@igsha.ru
Search for other works by this author on:
Bernd Beirow
Mem. ASME
Chair of Structural Mechanics
and Vehicle Vibrational Technology,
Brandenburg University of Technology,
Siemens-Halske-Ring 14,
Cottbus D-03046, Germany
e-mail: beirow@b-tu.de
Chair of Structural Mechanics
and Vehicle Vibrational Technology,
Brandenburg University of Technology,
Siemens-Halske-Ring 14,
Cottbus D-03046, Germany
e-mail: beirow@b-tu.de
Arnold Kühhorn
Mem. ASME
Chair of Structural Mechanics
and Vehicle Vibrational Technology,
Brandenburg University of Technology,
Cottbus D-03046, Germany
e-mail: kuehhorn@b-tu.de
Chair of Structural Mechanics
and Vehicle Vibrational Technology,
Brandenburg University of Technology,
Siemens-Halske-Ring 14
,Cottbus D-03046, Germany
e-mail: kuehhorn@b-tu.de
Felix Figaschewsky
Chair of Structural Mechanics
and Vehicle Vibrational Technology,
Brandenburg University of Technology,
Cottbus D-03046, Germany
e-mail: Felix.figascheswky@b-tu.de
and Vehicle Vibrational Technology,
Brandenburg University of Technology,
Siemens-Halske-Ring 14
,Cottbus D-03046, Germany
e-mail: Felix.figascheswky@b-tu.de
Alfons Bornhorn
Oleg V. Repetckii
Engineering Faculty,
Irkutsk State Agrarian University,
Irkutsk 664038, Russia
e-mail: repetckii@igsha.ru
Irkutsk State Agrarian University,
Irkutsk 664038, Russia
e-mail: repetckii@igsha.ru
1Corresponding author.
Manuscript received June 22, 2018; final manuscript received June 26, 2018; published online September 14, 2018. Editor: Jerzy T. Sawicki.
J. Eng. Gas Turbines Power. Jan 2019, 141(1): 011008 (8 pages)
Published Online: September 14, 2018
Article history
Received:
June 22, 2018
Revised:
June 26, 2018
Citation
Beirow, B., Kühhorn, A., Figaschewsky, F., Bornhorn, A., and Repetckii, O. V. (September 14, 2018). "Forced Response Reduction of a Blisk by Means of Intentional Mistuning." ASME. J. Eng. Gas Turbines Power. January 2019; 141(1): 011008. https://doi.org/10.1115/1.4040715
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