Friction damping and forced-response of vibrating structures: An insight into model validation

• Published in: International journal of solids and structures Vol. 202; pp. 521 - 531
• Main Authors: Umer, Muhammad, Gastaldi, Chiara, Botto, Daniele
• Format: Journal Article
• Language: English
• Published: New York Elsevier Ltd 01.10.2020; Elsevier BV
• Subjects: Adequacy; Contact force; Contact force measurement; Dampers; Damping; Dry friction; Dynamic response; Fatigue failure; Fatigue tests; Friction; Friction damping; High cycle fatigue; Nonlinear dynamics; Test equipment; Test rig; Turbine blade vibrations; Turbomachinery; Under-platform damper; Nonlinear dynamics; Contact force measurement; Friction damping; Test rig; Under-platform damper; Turbine blade vibrations
• ISSN: 0020-7683; 1879-2146
• DOI: 10.1016/j.ijsolstr.2020.07.002

Dry friction is widely incorporated in turbomachinery, in the form of under-platform dampers, to limit vibrations at resonance and reduce risks of high-cycle fatigue failures. Most of the test rigs that were used to investigate the behavior of under-platform dampers aim at evaluating the damper performance in terms of reduction of forced-response amplitude in blades. This approach could be insufficient to understand local nonlinearities in the contact and the influence of dampers on blade dynamics. A recently developed test rig provides the authors with an unprecedented set of information. It is capable to measure contact forces and relative displacements between dampers and blade in addition to the overall blade dynamic response. This controlled environment, together with an effective model of the blade/dampers system, is used to provide an insight into the subject of model validation. The presented experimental and numerical study of the damper is used to highlight the relevance of an accurate representation of the constraints induced by friction contacts and to discuss the adequacy of state-of-the-art contact models.