| Status: |
|
| Autorzy: |
Less AW.,
Friswell Michael I.,
Litak Grzegorz
|
| Rok wydania: |
2011 |
| URL do źródła |
LINK
|
| Język: |
angielski
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| Źródło: |
9th International Conference on Damage Assessment of Structures (DAMAS), Univ Oxford, St Annes Coll, Oxford, ENGLAND, JUL 11-13, 2011 |
| Państwo wystąpienia: |
POLSKA |
| Efekt badań statutowych |
NIE
|
| Abstrakty: |
angielski
|
|
Vibration and noise induced by errors and faults in gear meshes are key concerns for the performance of many rotating machines and the prediction of developing faults. Of particular concern are displacement errors in the gear mesh and for rigid gears these may be modelled to give a linear set of differential equations with forced excitation. Other faults, such as backlash or friction, may also arise and give non-linear models with rich dynamics. This paper considers the particular case of gear errors modelled as a Fourier series based on the tooth meshing frequency, leading immediately to non-linear equations of motion, even without the presence of other non-linear phenomena. By considering the perturbed response this system may be modelled as a parametrically excited system. This paper motivates the analysis, derives the equations of motion for the case of a single gear mesh, and provides example response simulations of a boiler feed pump including phase portraits and power spectra.
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