Development and Testing of Novel Acoustic Clay Tiles
Publication: Journal of Architectural Engineering
Volume 28, Issue 2
Abstract
Architectural acoustics in practice are often governed by postapplied porous absorbers and costly one-off solutions, which may limit the creative integration of acoustic design into the critical early phases of building design. The studies presented focus on the development and testing of novel acoustic clay-based tiles, which act as a composable hybrid design system including absorption and scattering properties that can be uniquely created to the site and use specific conditions; yet, it is based on a modular and affordable approach. Using experimental material studies, physical prototyping studies, and laboratory and field measurement studies, the tiles were developed and tested. The results show that the proposed configurable system and structure enable the articulation of specific scattering and absorption properties and that these can be activated to increase specific room acoustic qualities, measured on parameters of Reverberation Time and Definition in an auditorium setting.
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Acknowledgments
Authors would like to thank the Realdania Foundation for project support and Strøjer Tegl for industry specific support and development.
References
Arenas, J. P., and M. J. Crocker. 2010. “Recent trends in porous sound-absorbing materials.” J. Sound Vib. 44 (7): 12–17.
Baux. 2021. “Baux Acoustic Absorbers.” Accessed January 19, 2021. https://www.baux.com.
Cox, T. J., B. I. L. Dalenback, P. D’Antonio, J. J. Embrechts, J. Y. Jeon, E. Mommertz, and M. Vorländer. 2006. “A tutorial on scattering and diffusion coefficients for room acoustic surfaces.” Acta Acust. United Acust. 92 (1): 1–15.
Cox, T. J., and P. D’Antonio. 2016. Acoustic absorbers and diffusers: Theory, design and application. 3rd ed. Boca Raton, FL: CRC Press Tayloy & Francis Group.
Foged, I. W., A. Pasold, and M. Brath. 2012. “Acoustic environments: Applying evolutionary algorithms for sound based morphogenesis.” In Digital Physicality: Proc., 30th ECAADe Conf., 347–353. Prague, Czechia: Czech Technical University in Prague.
Foged, I. W., A. Pasold, and M. Brath. 2014. “Evolution of an instrumental architecture.” In Vol. 2 of Proc. 32nd eCAADe Conf., 365–372. Newcastle upon Tyne, UK: Dept. of Architecture and Built Environment, Faculty of Engineering and Environment.
ISO (International Organization for Standardization). 2005. Acoustics — Measurement of sound absorption in a reverberation room. ISO 354:2003. Geneva: ISO.
ISO (International Organization for Standardization). 2008. Acoustics — Measurement of Room Acoustic Parameters — Part 2: Reverberation Time in Ordinary Rooms. ISO: 3382-2:2008. Geneva: ISO.
Jensen, T. B. 2012. Exner. Risskov, Denmark: Ikaros Academic Press.
Klepeis, N. E., W. C. Nelson, W. R. Ott, J. P. Robinson, A. M. Tsang, P. Switzer, J. V. Behar, S. C. Hern, and W. H. Engelmann. 2001. “The national human activity pattern survey (NHAPS): A resource for assessing exposure to environmental pollutants.” J. Exposure Anal. Environ. Epidemiol. 11 (3): 231–252. https://doi.org/10.1038/sj.jea.7500165.
Kristensen, S. D. 1997. TEGL26 akustik. Hasselager, Denmark: TEGL.
Kristiansen, J., S. P. Lund, R. Persson, H. Shibuya, P. M. Nielsen, and M. Scholz. 2014. “A study of classroom acoustics and school teachers’ noise exposure, voice load and speaking time during teaching, and the effects on vocal and mental fatigue development.” Int. Arch. Occup. Environ. Health 87 (8): 851–860. https://doi.org/10.1007/s00420-014-0927-8.
Kvadrat. 2021. “Kvadrat Acoustics.” Accessed May 11, 2021. https://www.kvadrat.dk/en/kvadrat-acoustics.
Long, M. 2014. Architectural acoustics. 2nd ed. New York: Routledge.
McRobie, A. 2018. The seduction of curves. Princeton, NJ: Princeton University Press.
Müller-Trapet, M. 2015. Measurement of surface reflection properties - concepts and uncertainties. Aachen, Germany: RWTH Aachen.
Oldham, D. J., C. A. Egan, and R. D. Cookson. 2011. “Sustainable acoustic absorbers from the biomass.” Appl. Acoust. 72 (6): 350–363. https://doi.org/10.1016/j.apacoust.2010.12.009.
Peters, B., and T. Olesen. 2010. “Integrating sound scattering measurements in the design of complex architectural surfaces.” In Future Cities Proc., 28th ECAADe Conf., 481–491. Zurich, Switzerland: ETH Zurich.
Peters, B., and T. S. Olesen. 2009. “Integrating sound scattering measurements in design of complex architectural surfaces: Informing a parametric design strategy with acoustic measurements from rapid protoytype scale models.” In Proc., ECAADe2009 Conf., 481–492. Istanbul, Turkey: Yıldız Technical University.
Peters, B., M. Tamke, S. A. Nielsen, S. V. Andersen, and M. Haase. 2011. “Responsive acoustic surfaces.” In ECAADe2011 - Simulation, Visualisation, Prediction, Evaluation, 819–828. Ljubljana, Slovenia: Univ. of Ljubljana, Faculty of Architecture.
Prip-Buus, M. 2009. Vol. V of Additive architecture - Jørn Utzon Logbook. Copenhagen, Denmark: Edition Bløndal.
Rasmussen, S. E. 1964. Experiencing architecture. Cambridge, MA: MIT Press.
Rossi, G., J. Walker, A. Søndergaard, I. W. Foged, A. Pasold, and J. Hilmer. 2021. “Oscillating wire cutting and robotic assembly of bespoke acoustic tile systems.” Constr Rob. 5 (1): 63–72. https://doi.org/10.1007/s41693-020-00051-8.
Troldtekt Acoustics. 2021. “Troldtekt.” Accessed February 3, 2021. https://www.troldtekt.com/product-properties/good-acoustics/.
Vitale, R. 2014. Perceptual aspects of sound scattering in concert halls. Aachen, Germany: RWTH Aachen.
Vorlaender, M., J. J. Embrechts, and L. De Geetere. 2004. “Case studies in measurement of random incidence scattering coefficients.” Acta Acust. United Acust. 90 (5): 858–867.
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Received: Aug 17, 2020
Accepted: Jan 5, 2022
Published online: Feb 24, 2022
Published in print: Jun 1, 2022
Discussion open until: Jul 24, 2022
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