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Dynamics of rotating machinery:
analysis, identication and control
Athesis submitted to the University of Pisa
for the degree of Doctor of Philosophy
By
EMILIANO RUSTIGHI
Supervisors
Prof. C. Carmignani Prof.ssa. P. Forte
Corso di dottorato di ricerca in Ingegneria Meccanica, II◦ Ciclo
Department of Mechanical, Nuclear and Production Engineering
University of Pisa, Italy
February 2004
Title: Dynamics of rotating machinery: analysis, identication and control
Abstract: The performance requirements that modern rotating machines
must satisfy have introduced a trend toward higher speeds and more stringent
vibration levels. The basic tools to full the reduction of vibrations are the analy-
sis and the identication of rotor systems to design proper rotating elements, and
the use of control devices.
Supports, which are important rotor elements, are characterized with diffi-
culty. The modulating functions identication method was applied to identify the
parameters of hydrodynamic bearings. They were identied, both numerically and
experimentally, with encouraging results.
Moreover, the design of a magneto-rheological squeeze lm damper is presented
anddiscussed. A numerical simulation and an experimental campaign were carried
out. Since the damping characteristics can be varied continuously by controlling
the magnetic eld, it is possible to set the optimum conditions for each operating
condition. An automatic semi-active control algorithm was devised by means of
fuzzy logic and genetic algorithm.
Finally, the vibrations of exible rotating disks in the presence of dry friction
were studied. This is a crucial problem, common to many industrial elds. The
results of an experimental investigation, carried out on a commercial paper cut-
ting machine and on a test rig, are presented and discussed. The investigation
has shown the inuence of some operating and design parameters on the system
dynamic behaviour.
Titolo: Dinamica degli organi rotanti: analisi, identicazione e controllo
Sommario: Gli organi rotanti di macchinari moderni sono soggetti a velocit`a
sempre piu` elevate e limiti vibratori sempre piu` ristretti. Gli strumenti per ridurre
tali vibrazioni sono lanalisi e lidenticazione dei sistemi per un opportuno dimen-
sionamento delle parti rotanti, e lutilizzo di appropriati smorzatori.
Elementi importanti nella dinamica dei rotori ma di difficile caratterizzazione
sono i supporti. Il metodo identicativo delle funzioni modulanti `e stato applicato
allidenticazione dei coefficienti dinamici di cuscinetti idrodinamici. Sono stati
ottenuti risultati incoraggianti sia dalle analisi numeriche che sperimentali.
Inoltre `e presentato il progetto di uno smorzatore magnetoreologico a squeeze-
lm. Sonostaticondottisiaunaanalisinumericacheunacampagnasperimentale.
Poich`e il coefficiente smorzante del cuscinetto pu`o essere variato con continuit`a`e
stato possibile impostare le condizioni di funzionamento ottimo per ogni condizione
operativa. Un controllore automatico `e stato progettato con luso di logica Fuzzy
e algoritmi genetici.
Inne sono state studiate le vibrazioni di dischi sottili rotanti in presenza di
attrito secco, problema molto complesso e molto sentito in vari ambiti industriali.
Sonoquindipresentatiediscussiirisultati di unindagine sperimentale condotta sia
su un macchinario commerciale di una cartiera che su una attrezzatura sperimen-
`
tale. E stata mostrata linueza di alcuni parametri sullinsorgere delle vibrazioni.
Acknowledgements
I would like to express my gratitude to my supervisors, Prof. C. Carmignani
and Prof.ssa P. Forte. I gratefully acknowledge their technical and strategic
expertise, as well as their immense patience.
Special thanks are extended to my colleagues and friends for the useful
discussions, ideas and help. In particular I would like to thank Riccardo
Ciolini for his encouraging support and friendship.
Furthermore, I am indebted to the students Cristiano Arfanotti, Alessan-
dro Bechi, Gabriele Bicci, Andrea Borzoni, Marco Patern`o and Marcello
Venturi for their valuable contribution to my work.
Finally, I would like to thank my family and my girlfriend Ilaria for their
love, patience and support. Without their help this thesis would not have
been completed.
Contents
1 Introduction 1
2 Identication of rotor supports 6
2.1 Introduction............................ 6
2.2 Parametric identication techniques ............... 9
2.2.1 The modulating function identication algorithm . . . 9
2.2.2 The recursive identication algorithm .......... 12
2.3 Simulated identication of mechanical systems ......... 13
2.3.1 Oneandtwodegreeoffreedomsystems......... 13
2.3.2 Therotor-bearingsystem................. 23
2.4 Experimental tests on a single degree of freedom system . . . 27
2.4.1 Designofthetestrig................... 27
2.4.2 Experimentalresults................... 28
2.5 Experimental tests on a hydrodynamic bearing ......... 34
2.5.1 Designofthetestrig................... 34
2.5.2 Experimentalresults................... 35
2.6 Conclusions ............................ 38
3 Semi-active control of a rotating shaft: the magnetorheolog-
ical squeeze-lm damper 39
3.1 Introduction............................ 39
3.2 Passive, active and semi-active control of rotors ........ 40
3.3 Squeeze lm bearings ....................... 43
3.4 The magnetorheological uids .................. 44
3.5 Adjustable squeeze lm dampers ................ 50
3.6 Modelling of a squeeze lm damper with magnetorheological
uid ................................ 55
3.7 Modelling of the rotor-damper system .............. 59
3.8 Design of the MR squeeze-lm damper ............. 68
3.8.1 Descriptionofthedevice................. 68
3.8.2 Design of the magnetic circuit .............. 69
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