In an experimental investigation, the development of sonic crystal noise barriers (SCNBs) is undertaken to address the issue of train brake noise (TBN), focusing on the use of local resonances in scatterers of sonic crystals. Recent research has shown that the inclusion of cavity resonators in the crystal scatterers allows for the modification of their insulating properties. In those works, it has been demonstrated that this interaction can be used to build highly insulating structures. The study proposes an SCNB design that includes a resonant cavity specifically to mitigate TBN and validates this design through experimental measures. The experiments confirm the enhanced sound insulation capabilities of SCNBs, compare them to the conventional noise barriers ones and demonstrate the applicability and effectiveness of the proposed design in real-world scenarios.
Sonic Crystal Noise Barrier with Resonant Cavities for Train Brake Noise Mitigation / Ramírez-Solana, David; Galiana-Nieves, Jaime; Picó, Rubén; Redondo, Javier; Sangiorgio, Valentino; Graziano, Angelo Vito; Parisi, Nicola. - In: APPLIED SCIENCES. - ISSN 2076-3417. - 14:7(2024). [10.3390/app14072753]
Sonic Crystal Noise Barrier with Resonant Cavities for Train Brake Noise Mitigation
Sangiorgio, Valentino;Graziano, Angelo Vito;Parisi, Nicola
2024-01-01
Abstract
In an experimental investigation, the development of sonic crystal noise barriers (SCNBs) is undertaken to address the issue of train brake noise (TBN), focusing on the use of local resonances in scatterers of sonic crystals. Recent research has shown that the inclusion of cavity resonators in the crystal scatterers allows for the modification of their insulating properties. In those works, it has been demonstrated that this interaction can be used to build highly insulating structures. The study proposes an SCNB design that includes a resonant cavity specifically to mitigate TBN and validates this design through experimental measures. The experiments confirm the enhanced sound insulation capabilities of SCNBs, compare them to the conventional noise barriers ones and demonstrate the applicability and effectiveness of the proposed design in real-world scenarios.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
