Scholarly record
MEASUREMENT OF THE SOUND ABSORPTION COEFFICIENT OF MATERIALS USING OF COMBINED SENSOR OF PARTICLE VELOCITY AND ACOUSTIC PRESSURE
Publication Impact Profile
Publication details
References28
VIGRAN, T.E. et al.: Prediction and measurements of the influence of boundary conditions in a standing wave tube, Acta Acustica, 83, 419-423 (1997).
TIJSL E., De BREE, H-E.: Recent developments free field PU impedance technique.
Chapter 2: Sound and vibration. [online]. [cit 2013-12-18]. http://www.mi croflown.com/files/media/library/books/microflown_ebook/ebook_ 2_sound_and_vibration.pdf
De BREE, H- E et al.: Broad band method to determine the normal and oblique reflection coefficient of acoustic materials, SAE 2005.
LANOYE, R. et al.: A practical device to determine the reflection coefficient of acoustic materials in-situ based on a Microflown and microphone, ISMA, 2004.
Do cument: Acoustic Impedance Measurements, www.microflown.com
FŐZŐ, L. - ANDOGA, R. - MADARÁSZ, L.: Mathematical model of a small Turbojet Engine MPM 20. In: Studies in Computational Intelligence. Vol. 313 (2010), p. 313-322. - ISSN 1860-949X.
FLEGNER, P. et al: Measurement and processing of vibro-acoustic signal from the process of rock disintegration by rotary drilling. In: Measurement. Vol. 56 (2014), p. 178-193. - ISSN 0263-2241.
BLIŠŤAN, P. - BLIŠŤANOVÁ, M. - MOLOKÁČ, M. - HVIZDÁK, L.: Renewable energy sources and risk management. In: Measurement. In: SGEM 2012, Volume 4, P. 587-594. - ISSN 1314-2704.
BADIDA, M. - BARTKO, L. - KONKOLY, J. : Research of sound absorption coefficient of multilayer sandwich absorbers from recycled materials. In: Vedecký obzor. Vol. 5, no. 2 (2013), p. 5-8. - ISSN 1337-9054.
SEYBERT, A. F., and ROSS, D. F., Experimental Determination of Acoustic Properties Using a Two-Microphone Random-Excitation Technique, J. Acoustic Society. Am., Vol. 61, No. 5, pp. 1362-1370, 1977.
ASTM E1050, Standard test method for impedance and absorption of acoustical materials using a tube, two microphones, and a digital frequency analysis system.
Standard ISO 10534-2, Acoustics – Determination of sound absorption coefficient and impedance in impedance tubes – Part 2: Transfer-function method.
ČEKAN, P. - KORÁLOVÁ, K.: General description of the principles of vibration sensor - piezoelectric sensors. In: Sustainability - Environment - Safety 2012 , STRIX 2012, p. 19-26, ISBN 978-80-89281-84-8. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
VIGRAN, T.E. et al.: Prediction and measurements of the influence of boundary conditions in a standing wave tube, Acta Acustica, 83, 419-423 (1997).
TIJSL E., De BREE, H-E.: Recent developments free field PU impedance technique.
Chapter 2: Sound and vibration. [online]. [cit 2013-12-18]. http://www.mi croflown.com/files/media/library/books/microflown_ebook/ebook_ 2_sound_and_vibration.pdf
De BREE, H- E et al.: Broad band method to determine the normal and oblique reflection coefficient of acoustic materials, SAE 2005.
LANOYE, R. et al.: A practical device to determine the reflection coefficient of acoustic materials in-situ based on a Microflown and microphone, ISMA, 2004.
Do cument: Acoustic Impedance Measurements, www.microflown.com
FŐZŐ, L. - ANDOGA, R. - MADARÁSZ, L.: Mathematical model of a small Turbojet Engine MPM 20. In: Studies in Computational Intelligence. Vol. 313 (2010), p. 313-322. - ISSN 1860-949X.
FLEGNER, P. et al: Measurement and processing of vibro-acoustic signal from the process of rock disintegration by rotary drilling. In: Measurement. Vol. 56 (2014), p. 178-193. - ISSN 0263-2241.
BLIŠŤAN, P. - BLIŠŤANOVÁ, M. - MOLOKÁČ, M. - HVIZDÁK, L.: Renewable energy sources and risk management. In: Measurement. In: SGEM 2012, Volume 4, P. 587-594. - ISSN 1314-2704.
BADIDA, M. - BARTKO, L. - KONKOLY, J. : Research of sound absorption coefficient of multilayer sandwich absorbers from recycled materials. In: Vedecký obzor. Vol. 5, no. 2 (2013), p. 5-8. - ISSN 1337-9054.
SEYBERT, A. F., and ROSS, D. F., Experimental Determination of Acoustic Properties Using a Two-Microphone Random-Excitation Technique, J. Acoustic Society. Am., Vol. 61, No. 5, pp. 1362-1370, 1977.
ASTM E1050, Standard test method for impedance and absorption of acoustical materials using a tube, two microphones, and a digital frequency analysis system.
Standard ISO 10534-2, Acoustics – Determination of sound absorption coefficient and impedance in impedance tubes – Part 2: Transfer-function method.
ČEKAN, P. - KORÁLOVÁ, K.: General description of the principles of vibration sensor - piezoelectric sensors. In: Sustainability - Environment - Safety 2012 , STRIX 2012, p. 19-26, ISBN 978-80-89281-84-8. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
View or Download full articleAccess options
SWS access login
Login as SWS Scientific CommitteeLogin as SWS Scientific PartnerLogin as SWS AuthorAuthors and approved SWS contributors will read and export their own linked papers after identity matching by SWS profile, email and SGEM GlobalID.
For librarian assistance: [email protected]
Purchase Instant Access
- Article can be downloaded after successful payment.
- Article may be used according to SWS library access terms.
- Article cannot be redistributed.

