On the control of the absorption of an Acoustic Black Hole by using attached point supports

The Acoustic Black Hole (ABH) embedded in a beam is a termination that provides effective vibration absorption. The ABH effect, usually achieved by adding a visco-elastic coating in the flexible part of the termination, results in a reflection coefficient that varies with frequency, with local maxima and minima associated with local modes trapped in the termination. The density of these modes induces narrow absorption bands whose overlap makes the ABH very efficient from a cut-on frequency. In this paper, a new way to take advantage of the ABH effect is developed analytically, numerically and experimentally by applying a localised damping to the termination by means of elastic and damping point supports. This new type of device provides a new way to control the ABH effect inducing low reflection coefficient values over wide and low frequency ranges. •A new type of enhanced Acoustic Black Holes using elastic point supports.•Broadband absorption by cumulative effects of multiple attachments on Acoustic Black Hole.•Low reflection of bending waves on multi targeted frequencies.•Impedance matching at the tip of Acoustic Black Hole to reach critical coupling conditions.•Interlacing poles and zeros of the reflection coefficient by reactive effect.