We study passive and nonlinear targeted energy transfers induced by resonant interactions between a singledegree- of-freedom nonlinear energy sink (NES) and a 2-DOF in-flow rigid wing model. We show that it is feasible to partially or even completely suppress aeroelastic instability by passively transferring vibration energy from the wing to the NES in a one-way irreversible fashion. Moreover, this instability suppression is performed by partially or completely eliminating its triggering mechanism. Numerical parametric studies identify three main mechanisms for suppressing aeroelastic instability: recurring burstout and suppression, intermediate suppression, and complete elimination.Weinvestigate these mechanisms both numerically by t...
International audienceThis paper investigates the passive control of a rotor instability named helic...
peer reviewedMulti-degree-of-freedom nonlinear energy sinks (MDOF NESs) are utilized to improve robu...
A recent study showed that the addition of a linear tuned vibration absorber could increase the flut...
We study passive and nonlinear targeted energy transfers induced by transient resonant interactions ...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76103/1/AIAA-24062-636.pd
Abstract. Theoretical and experimental suppression of aeroelastic instabilities by means of broadban...
This paper presents experimental results corroborating the analysis developed in the companion paper...
Theoretical and experimental suppression of aeroelastic instabilities by means of broadband passive ...
In this last of a three paper sequence, we use simultaneous multimodal broadband targeted energy tra...
Numerical simulations were conducted to study flow-induced vibration of a two-dimensional airfoil wi...
We perform a preliminary study of targeted energy transfers for suppressing aeroelastic instabilitie...
The presence of limit cycle oscillations within the flight envelopes of existing aircraft is well do...
Limit cycle oscillations (LCOs) commonly require restrictions on the operation of high- performance...
The issue to passively control aeroelastic instability of general nonlinear multi-d.o.f. systems, su...
Multi-degree-of-freedom nonlinear energy sinks (MDOF NESs) are utilized to improve robustness of sup...
International audienceThis paper investigates the passive control of a rotor instability named helic...
peer reviewedMulti-degree-of-freedom nonlinear energy sinks (MDOF NESs) are utilized to improve robu...
A recent study showed that the addition of a linear tuned vibration absorber could increase the flut...
We study passive and nonlinear targeted energy transfers induced by transient resonant interactions ...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76103/1/AIAA-24062-636.pd
Abstract. Theoretical and experimental suppression of aeroelastic instabilities by means of broadban...
This paper presents experimental results corroborating the analysis developed in the companion paper...
Theoretical and experimental suppression of aeroelastic instabilities by means of broadband passive ...
In this last of a three paper sequence, we use simultaneous multimodal broadband targeted energy tra...
Numerical simulations were conducted to study flow-induced vibration of a two-dimensional airfoil wi...
We perform a preliminary study of targeted energy transfers for suppressing aeroelastic instabilitie...
The presence of limit cycle oscillations within the flight envelopes of existing aircraft is well do...
Limit cycle oscillations (LCOs) commonly require restrictions on the operation of high- performance...
The issue to passively control aeroelastic instability of general nonlinear multi-d.o.f. systems, su...
Multi-degree-of-freedom nonlinear energy sinks (MDOF NESs) are utilized to improve robustness of sup...
International audienceThis paper investigates the passive control of a rotor instability named helic...
peer reviewedMulti-degree-of-freedom nonlinear energy sinks (MDOF NESs) are utilized to improve robu...
A recent study showed that the addition of a linear tuned vibration absorber could increase the flut...