Add to ORKGAn acoustic black hole (ABH) consists of a tapered structure whose thickness follows a power-law profile. When attached to a host structure, an ABH localizes and traps the vibrational energy, which can then be dissipated through, e.g., a damping layer. However, effective vibration mitigation is known to occur only above a cut-on frequency which is inversely proportional to the length of the tapered structure. In this context, the main thrust of this paper is to replace a mechanical ABH by a digital controller so as to create a so-called virtual acoustic black hole (VABH), thus, freeing the ABH from possible mechanical constraints (e.g., compactness, manufacturing and fatigue issues). The proposed VABH is first detailed theoretically. The sa...
Vibration damping of mechanical structures is playing an important role in the design of many indust...
International audienceAcoustic Black Hole effect (ABH) is a passive vibration damping technique with...
International audienceThe design of lightweight and stiff structures with attractive vibration dampi...
An Acoustic Black Hole (ABH) is a lightweight and compact damping solution, which can be realised as...
International audienceAn experimental demonstration of the broadband passive damping capacity of a v...
International audienceNonlinear flexural vibrations of slender beams holding both an Acoustic Black ...
Acoustic Black Holes (ABHs) are tapered features that can either be surface mounted or embedded into...
peer reviewedAcoustic Black Hole (ABH) phenomenon features unique wave retarding and energy focusing...
Acoustic black holes (ABHs) are tapered structural features that can achieve high levels of structur...
Acoustic Black Holes (ABHs) are structural features that are typically realised by introducing a tap...
International audienceThe Acoustic Black Hole (ABH) effect refers to a special vibration damping tec...
The Acoustic Black Hole (ABH) effect takes place in thin-walled structures with diminishing thicknes...
Acoustic Black Holes (ABHs) have been shown to provide significant vibration damping in both beams a...
[EN] An Acoustic Black Hole (ABH) in a one-dimensional (1D) beam is a passive vibration damping devi...
International audienceThe Acoustic Black Hole effect (ABH) is a passive vibration damping technique ...
Vibration damping of mechanical structures is playing an important role in the design of many indust...
International audienceAcoustic Black Hole effect (ABH) is a passive vibration damping technique with...
International audienceThe design of lightweight and stiff structures with attractive vibration dampi...
An Acoustic Black Hole (ABH) is a lightweight and compact damping solution, which can be realised as...
International audienceAn experimental demonstration of the broadband passive damping capacity of a v...
International audienceNonlinear flexural vibrations of slender beams holding both an Acoustic Black ...
Acoustic Black Holes (ABHs) are tapered features that can either be surface mounted or embedded into...
peer reviewedAcoustic Black Hole (ABH) phenomenon features unique wave retarding and energy focusing...
Acoustic black holes (ABHs) are tapered structural features that can achieve high levels of structur...
Acoustic Black Holes (ABHs) are structural features that are typically realised by introducing a tap...
International audienceThe Acoustic Black Hole (ABH) effect refers to a special vibration damping tec...
The Acoustic Black Hole (ABH) effect takes place in thin-walled structures with diminishing thicknes...
Acoustic Black Holes (ABHs) have been shown to provide significant vibration damping in both beams a...
[EN] An Acoustic Black Hole (ABH) in a one-dimensional (1D) beam is a passive vibration damping devi...
International audienceThe Acoustic Black Hole effect (ABH) is a passive vibration damping technique ...
Vibration damping of mechanical structures is playing an important role in the design of many indust...
International audienceAcoustic Black Hole effect (ABH) is a passive vibration damping technique with...
International audienceThe design of lightweight and stiff structures with attractive vibration dampi...