2021
DOI: 10.3390/metrology1010002
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An Overview of Acoustic Impedance Measurement Techniques and Future Prospects

Abstract: In order to progress in the area of aeroacoustics, experimental measurements are necessary. Not only are they required for engineering applications in acoustics and noise engineering, but also they are necessary for developing models of acoustic phenomenon around us. One measurement of particular importance is acoustic impedance. Acoustic Impedance is the measure of opposition of acoustical flow due to the acoustic pressure. It indicates how much sound pressure is generated by the vibration of molecules of a p… Show more

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Cited by 34 publications
(10 citation statements)
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“…Fig. 1 Impedance Tube Circuit [17] Amplifier will be used to amplify the microphone and connected to an oscilloscope to display the waveform. The quantities measured are amplitude maximum of pressure (A+B), the amplitude minimum of pressure (A−B), and sample distance is first minimum amplitude (d1), the distance from second minimum amplitude (d2).…”
Section: Methodsmentioning
confidence: 99%
“…Fig. 1 Impedance Tube Circuit [17] Amplifier will be used to amplify the microphone and connected to an oscilloscope to display the waveform. The quantities measured are amplitude maximum of pressure (A+B), the amplitude minimum of pressure (A−B), and sample distance is first minimum amplitude (d1), the distance from second minimum amplitude (d2).…”
Section: Methodsmentioning
confidence: 99%
“…To determine the tested sample's absorption coefficient at the required frequency, the findings are finally calculated using the transfer function approach. [374][375][376][377][378] ASTM 1050-12, ASTM C423-17, ISO 354, and ISO 10,534-2 standards are used to determine the acoustic properties of small materials employing impedance tube. Sound absorption coefficient and transmission loss is calculated using impedance tube.…”
Section: Measurement Of Sound Absorptionmentioning
confidence: 99%
“…In order to determine the cross spectrum more precisely, the transfer function between the two points, two microphones are employed to determine the sound pressure at two separate positions. To determine the tested sample's absorption coefficient at the required frequency, the findings are finally calculated using the transfer function approach 374–378 . ASTM 1050–12, ASTM C423‐17, ISO 354, and ISO 10,534–2 standards are used to determine the acoustic properties of small materials employing impedance tube.…”
Section: Acoustic Propertiesmentioning
confidence: 99%
“…Sensors for sound capture have wide-ranging characteristics based on the application, desired transduction method, frequency range of interest, required sensitivity, and medium being monitored. The medium being monitored is critical because it has a specific acoustic impedance ( Z ), a material property related to the density, and speed of sound, that opposes longitudinal wave motion . When sound intersects at the interface between the medium being monitored and sensor, the pressure and velocity of the incident wave must equal the sum of the pressure and velocity of the transmitted and reflected waves.…”
Section: Introductionmentioning
confidence: 99%
“…The medium being monitored is critical because it has a specific acoustic impedance (Z), a material property related to the density, and speed of sound, that opposes longitudinal wave motion. 1 When sound intersects at the interface between the medium being monitored and sensor, the pressure and velocity of the incident wave must equal the sum of the pressure and velocity of the transmitted and reflected waves. When there is an acoustic impedance mismatch, this leads to partial energy transmission between the medium and sensor.…”
Section: ■ Introductionmentioning
confidence: 99%