Stability of finite journal bearings from bearings--linear and nonlinear bearing forces
- Univ. of Wollongong, Wollongong (Australia)
The paper investigates the relationship between the stability contour determined from the nonlinear simulation and that from the linear theory. The nonlinear bearing forces are directly obtained from the bearing pressure distribution which is solved from the Reynolds equation at each journal position. It is found that the critical speeds in the case of nonlinear bearing forces are the same as those predicted by the linear theory, although the whirl loci under large dynamic excitations are significantly different from those arising from the linear bearing forces. Typical whirling trajectories under impact excitation, positionperturbation and synchronous unbalance excitations are simulated and presented to explain the stable, critical and unstable phenomena. The whirl displacement signals are also transformed to the frequency domain, and their whirling frequencies are analyzed according to their frequency characteristics.
- Sponsoring Organization:
- USDOE
- OSTI ID:
- 117692
- Journal Information:
- ASLE Transactions, Journal Name: ASLE Transactions Journal Issue: 3 Vol. 38; ISSN ASLTA2; ISSN 0569-8197
- Country of Publication:
- United States
- Language:
- English
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