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The robustness of an experimental procedure to predict the stability threshold speed in rotating machinery

Bram Vervisch (UGent) , Dries Ghyselinck, Michael Monte (UGent) , Kurt Stockman (UGent) and Mia Loccufier (UGent)
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Abstract
{High speed rotating machinery, with an operating speed above the first critical speed or above the first resonance frequency, is sensitive to instability. In this research, the robustness of an experimental procedure to predict the stability threshold speed in rotating machinery is discussed. The single degree of freedom model that is used in the experiments is discussed and the procedure is experimentally validated on a rotating damping setup. In this setup, the rotating damping is varied by means of tightening and loosening a flexible coupling. It is shown that it is possible to predict the stability threshold speed experimentally and that the rotor becomes unstable above this speed.}

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Chicago
Vervisch, Bram, Dries Ghyselinck, Michael Monte, Kurt Stockman, and Mia Loccufier. 2016. “The Robustness of an Experimental Procedure to Predict the Stability Threshold Speed in Rotating Machinery.” In {PROCEEDINGS OF ISMA2016 INTERNATIONAL CONFERENCE ON NOISE AND VIBRATION ENGINEERING AND USD2016 INTERNATIONAL CONFERENCE ON UNCERTAINTY IN STRUCTURAL DYNAMICS}, ed. P Sas, D Moens, and A} VanDeWalle, 977–987. {CELESTIJNENLAAN 300B, HEVERLEE, B-3001, BELGIUM}: {KATHOLIEKE UNIV LEUVEN, DEPT WERKTUIGKUNDE}.
APA
Vervisch, Bram, Ghyselinck, D., Monte, M., Stockman, K., & Loccufier, M. (2016). The robustness of an experimental procedure to predict the stability threshold speed in rotating machinery. In P. Sas, D. Moens, & A. VanDeWalle (Eds.), {PROCEEDINGS OF ISMA2016 INTERNATIONAL CONFERENCE ON NOISE AND VIBRATION ENGINEERING AND USD2016 INTERNATIONAL CONFERENCE ON UNCERTAINTY IN STRUCTURAL DYNAMICS} (pp. 977–987). Presented at the International Conference on Noise and Vibration Engineering (ISMA) / International Conference on Uncertainty in Structural Dynamics (USD) , {CELESTIJNENLAAN 300B, HEVERLEE, B-3001, BELGIUM}: {KATHOLIEKE UNIV LEUVEN, DEPT WERKTUIGKUNDE}.
Vancouver
1.
Vervisch B, Ghyselinck D, Monte M, Stockman K, Loccufier M. The robustness of an experimental procedure to predict the stability threshold speed in rotating machinery. In: Sas P, Moens D, VanDeWalle A, editors. {PROCEEDINGS OF ISMA2016 INTERNATIONAL CONFERENCE ON NOISE AND VIBRATION ENGINEERING AND USD2016 INTERNATIONAL CONFERENCE ON UNCERTAINTY IN STRUCTURAL DYNAMICS}. {CELESTIJNENLAAN 300B, HEVERLEE, B-3001, BELGIUM}: {KATHOLIEKE UNIV LEUVEN, DEPT WERKTUIGKUNDE}; 2016. p. 977–87.
MLA
Vervisch, Bram, Dries Ghyselinck, Michael Monte, et al. “The Robustness of an Experimental Procedure to Predict the Stability Threshold Speed in Rotating Machinery.” {PROCEEDINGS OF ISMA2016 INTERNATIONAL CONFERENCE ON NOISE AND VIBRATION ENGINEERING AND USD2016 INTERNATIONAL CONFERENCE ON UNCERTAINTY IN STRUCTURAL DYNAMICS}. Ed. P Sas, D Moens, & A} VanDeWalle. {CELESTIJNENLAAN 300B, HEVERLEE, B-3001, BELGIUM}: {KATHOLIEKE UNIV LEUVEN, DEPT WERKTUIGKUNDE}, 2016. 977–987. Print.
@inproceedings{8522727,
  abstract     = {\{High speed rotating machinery, with an operating speed above the first critical speed or above the first resonance frequency, is sensitive to instability. In this research, the robustness of an experimental procedure to predict the stability threshold speed in rotating machinery is discussed. The single degree of freedom model that is used in the experiments is discussed and the procedure is experimentally validated on a rotating damping setup. In this setup, the rotating damping is varied by means of tightening and loosening a flexible coupling. It is shown that it is possible to predict the stability threshold speed experimentally and that the rotor becomes unstable above this speed.\}},
  author       = {Vervisch, Bram and Ghyselinck, Dries and Monte, Michael and Stockman, Kurt and Loccufier, Mia},
  booktitle    = {\{PROCEEDINGS OF ISMA2016 INTERNATIONAL CONFERENCE ON NOISE AND VIBRATION ENGINEERING AND USD2016 INTERNATIONAL CONFERENCE ON UNCERTAINTY IN STRUCTURAL DYNAMICS\}},
  editor       = {Sas, P and Moens, D and VanDeWalle, A\}},
  isbn         = {978-90-73802-94-0},
  language     = {eng},
  location     = {Leuven},
  pages        = {977--987},
  publisher    = {\{KATHOLIEKE UNIV LEUVEN, DEPT WERKTUIGKUNDE\}},
  title        = {The robustness of an experimental procedure to predict the stability threshold speed in rotating machinery},
  year         = {2016},
}

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