ROTORDYNAMICS ANALYSIS OF HIGH-PRESSURE LOW-FLOW GEAR COMPRESSORS, 243-250.

Tian Ji, Jinku Yan, Guihong Bian, and Yongjie Xiao

References

  1. [1] L.L. Hou, M.Q. Li, G.S. Wang, L.Y. Lan, H. Chen, andY.P. Huang, Nonlinear dynamics of helicopter planetary gear-rotor system under stiffness variation, Journal of MechanicalTransmission, 45(9), 2021, 145–150.
  2. [2] F.Z. Geng, L.J. Yang, Y.F. Li, and L.J. Wu, Realization ofdouble-branch torsion split drive system of gearbox and analysisof rotor dynamics, Journal of Mechanical Transmission, 44(6),2020, 84–88.
  3. [3] B.R. Gong, H.X. Chen, and G.F. Yin, Response analysis ofeccentric gear to shaft rotation based on rotor dynamics,Machinery, 46(5), 2019, 28–32.
  4. [4] F. Liu, L. Zhang, H. Jiang, and J. Zhang, Nonlinear dynamicanalysis of two external excitations for the gear system usingan original computational algorithm, Mechanical Systems andSignal Processing, 144, 2020, 106823.
  5. [5] S. Tounsi, Optimisation of network injected power of aninnovated structure of wind turbine, Mechatronic Systems andControl, 51(2), 2023, 67–78.
  6. [6] Z. Wang, Singularity of Riccati transfer matrix method andits elimination method, Journal of Vibration and Shock, 1987,74–78.
  7. [7] T.J. Li, G.H. Jin, H.Y. Bao, R.P. Zhu, and L.L. An, Transversevibration model and nonlinear dynamics of gear rotor-rollingbearing system, Journal of Central South University (Scienceand Technology), 48(8), 2017, 2044–2052.
  8. [8] H.R. Shi and D.Y. Zhao, Vibration characteristic analysis oftwo-stage helical cylindrical gear rotor system, Journal of ShipMechanics, 23(4), 2019, 497–503.
  9. [9] Q. Wen, Q. Du, and X. Zhai, An analytical method forcalculating the tooth surface contact stress of spur gears withtip relief, International Journal of Mechanical Sciences, 151,2019, 170–180.
  10. [10] V.I. Medvedev, A.E. Volkov, M.A. Volosova, and O.E.Zubelevich, Mathematical model and algorithm for contactstress analysis of gears with multi-pair contact, Mechanismand Machine Theory, 86, 2015, 156–171.
  11. [11] Y. Xing and N. Zhang, Analysis of transverse dynamics of motorrotor based on API 684, Chinese Journal of Turbomachinery,61(4), 2019, 67–76.
  12. [12] P. Wei, H. Zhou, H. Liu, C. Zhu, W. Wang, and G. Deng,Modeling of contact fatigue damage behavior of a wind turbinecarburized gear considering its mechanical properties andmicrostructure gradients, International Journal of MechanicalSciences, 156, 2019, 289–296.
  13. [13] H. She, C. Li, Q. Tang, and B. Wen, The investigation of thecoupled vibration in a flexible-disk blades system consideringthe influence of shaft bending vibration, Mechanical Systemsand Signal Processing, 111, 2018, 545–569.
  14. [14] F. Arenas-Rosales, F. Martell-Chavez, and I.Y. Sanchez-Chavez, Discrete time DC motor model for load torqueestimation for PID-IMC speed control, Mechatronic Systemsand Control, 50(2), 2022, 102–108.
  15. [15] H. Wang, X. Qin, Q. Wang, and Q. Li, Dynamic designand analysis on helical milling spindle unit using modifiedwhole transfer matrix method, Journal of Computational andTheoretical Nanoscience, 13(4), 2016, 2601–2607.
  16. [16] X. Su, H. Lu, X. Zhang, W. Fan, and Y. Zhang, Analysis ofdynamic characteristic for misalignment-spline gear shaft basedon whole transfer matrix method, Journal of Vibroengineering,20(3), 2018, 1392–1480.
  17. [17] A.K. Yadav, V. Kumar, A.S. Pandey, S.M. Tripathi, and A.Kumar, Wind farm integrated fuzzy logic-based facts controlledpower system stability analysis, Mechatronic Systems andControl, 51(4), 2023, 172–181.

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