Forced response of shrouded bladed disc assemblies: a jointed experimental numerical approach - Archive ouverte HAL
Communication Dans Un Congrès Année : 2004

Forced response of shrouded bladed disc assemblies: a jointed experimental numerical approach

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The objective of the proposed study is to progress towards a better modeling of bladed assemblies dynamic. Coupling devices are introduced in bladed stages to increase frequencies of resonance above the range of possible excitations. Commonly they are not only used to stiffen flexible structures but also to increase damping by dry friction, reducing the amplitude of vibration. Consequently, the resulting dynamic behavior is complex and highly non linear. In order to improve numerical capabilities used for the design of part span shrouds and to gain a better understanding of the dynamic behavior of shrouded assemblies, a jointed experimental and numerical approach has been conducted. A first experimental test based on a cantilever beam is considered. The beam, excited by a controlled electrodynamic shaker, is associated to a dry friction damper at its free end. A numerical finite element analysis and a macroslip model of contact has been developed. The solution method in time domain allows accurate computations of response levels and gives the main harmonics of the steady state response. Comparison between numerical and experimental results is very good. A second experimental set up is constituted by an assembly of 13 beams, cyclically mounted around a common disk and linked by geometrically simplified shrouds. The set up allows controlling the resultant forces in the contact and is able to exhibit all states of contact from fully slipping to fully stuck. The first results obtained are associated to a single couple of blades brought into contact.
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Flavio d'Ambrosio, Eric Chatelet, Julien Ravoux, Georges Jacquet-Richardet. Forced response of shrouded bladed disc assemblies: a jointed experimental numerical approach. ASME Turbo Expo 2004, Power for Land, Sea and Air, IGTI 2004, Jun 2004, Vienne, Austria. pp.337-347, ⟨10.1115/GT2004-53705⟩. ⟨hal-04696311⟩
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