Experimental Investigation of Misalignment Effects on Rotor Shaft Vibration and on Stator Current Signature
Tóm tắt
Từ khóa
Tài liệu tham khảo
S.R. Bognatz, Alignment of critical and non critical machines. Orbit, 23–25 (1995)
J.M. Bossio, G.R. Bossio, C.H. De Angelo, Angular misalignment in induction motor with flexible coupling. Proceedings of the IEEE IECON, Porto, Portugal, 3–7 November, 2009, pp. 1033–1038
C.B. Gibbons, Coupling misalignment forces. Proceedings of the 5th Turbo Machinery Symposium, Gas Turbine Laboratory, Texas A&M University, Texas, 1976, pp. 111–116
A.S. Sekhar, B.S. Prabhu, Effects of coupling misalignment on vibration of rotating machines. J. Sound Vib. 185, 655–671 (1995)
B.S. Prabhu, An experimental investigation on the misalignment effects in journal bearings. Tribol. Trans. 40, 235–242 (1997)
Y.S. Lee, C.W. Lee, Modeling and analysis of misaligned rotor–ball bearing systems. J. Sound Vib. 224, 17–32 (1999)
D.L. Dewell, L.D. Mitchell, Detection of a misaligned disk coupling using spectrum analysis. J. Vib. Acoust. Stress Reliab. Des. 106, 9–16 (1984)
K.M. Al-Hussain, I. Redmond, Dynamic response of two rotors connected by rigid mechanical coupling with parallel misalignment. J. Sound Vib. 249, 483–498 (2002)
J. Wook Heo, J. Chung, K. Choi, Dynamic time responses of a flexible spinning disk misaligned with the axis of rotation. J. Sound Vib. 262, 25–44 (2003)
J.R. Mancuso, C.B. Gibbons, R.E. Munyon, The application of flexible couplings for turbo machinery, Proceedings of the Eighth Turbo machinery Symposium, Gas Turbine Laboratories, Texas A & M University, 1990, pp. 141–164
J. Mancuso, General purpose vs. special purpose couplings. Proceedings of the Fifth Turbo machinery Symposium, Gas Turbine Laboratories, Texas A & M University, 1995, pp. 167–177
I. Redmond, Shaft misalignment and vibration-A model. Proceedings of the Society for Experimental Mechanics, 19–22 February, 2007
M. Saigo, Y. Okada, K. Ono, Self-excited vibration caused by internal friction in universal joints and its stabilizing method. J. Vib. Acoust. 119, 221–229 (1997)
M. Xu, R.D. Marangoni, Vibration analysis of a motor flexible coupling-rotor system subject to misalignment and unbalance. Part I: experimental validation. J. Vib. Sound 176, 681–691 (1994)
R.M. Rosenberg, On the dynamical behavior of rotating shafts driven by universal (Hooke) coupling. J. Appl. Mech. 25, 47–51 (1958)
S. Sarkar, A. Nandi, S. Neogy, J.K. Dutta, T.K. Kundra, Finite element analysis of misaligned rotors on oil-film bearings. Indian Acad. Sci. 35, 45–61 (2010)
V. Hariharan, P.S.S. Srinivasan, Vibration analysis of misaligned shaft–ball bearing system. Indian J. Sci. Technol. 2, 45–50 (2009)
T.H. Patel, A.K. Dapre, Experimental investigations on vibration response of misaligned rotor. J. Mech. Signal Process. 23, 2236–2252 (2009)
R.R. Schoen, T.G. Habetler, F. Kamran, R.G. Bartheld, Motor bearing damage detection using stator current monitoring. IEEE Trans. Ind. Appl. 31, 1274–1279 (1995)
A.K. Verma, S. Sarangi, M. Kolekar, S. Banerjee, Oil whip detection using stator current monitoring. IEEE Symposium on Computers and Informatics, Penang, Malaysia, 18–20 March, 2012, pp. 119–124
A.K. Verma, S. Sarangi, M. Kolekar, Shaft misalignment detection using stator current monitoring. Int. J. Adv. Comput. Res. 3, 305–309 (2013)