Analytical coupled vibro-acoustic modeling of a cavity-backed duct-membrane system with uniform mean flow

Abstract: Sound propagation in a flow duct is a complex and technically challenging problem. The presence of flexible vibrating walls inside the duct creates additional difficulties to the problem due to the complex vibro-acoustic and aero-acoustic couplings involved in the system. An accurate prediction of the coupled system response is of great importance for a good understanding of the underlying physics as well as the optimal design of relevant noise suppression devices. In the present work, a unified energy formula… Show more

“…Recent studies have shown that techniques such as resonant acoustic rheology based on interfacial capillary waves provide a new method to quantify the properties of membrane surface tension [ 62 ]. This approach allows non-contact measurements of the viscoelastic properties of biological samples, providing insights into phenomena such as tissue diffusion and cell sorting [ 63 ].…”

Research progress on the regulatory role of cell membrane surface tension in cell behavior

“…Recent studies have shown that techniques such as resonant acoustic rheology based on interfacial capillary waves provide a new method to quantify the properties of membrane surface tension [ 62 ]. This approach allows non-contact measurements of the viscoelastic properties of biological samples, providing insights into phenomena such as tissue diffusion and cell sorting [ 63 ].…”

Research progress on the regulatory role of cell membrane surface tension in cell behavior

An investigation on the acoustic impedance of a viscously damped micro-perforated rectangular membrane

Bandgap characteristics of a duct embedded with multiple membrane-cavity resonators in the presence of mean flow