Urbanism Department (/Chair of Environmental Technologies ... · Acoustic Design and Additive...
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TU Del f t , Facul t y of Ar chi t ect ur e and t he Bui l t Envi r onment , [ A+BE] Gr aduat e School Acoustic Design and Additive Manufacturing Keywords: Acoustics, Sound Absorption, Additive Manufacturing Urbanism Department (/Chair of Environmental Technologies and Design) Area of Research: Computation & Performance Foteini Setaki PhD started in: 2015, TUD MSc Building Technology, 2012, TUD Architecture Diploma, 2008, NTUA Promoter(s): Arjan van Timmeren Daily Supervisor(s): Martin Tenpierik Michela Turrin Research Summary: This PhD is part of the research project ADAM: Acoustic by parametric Design and Additive Manufacturing. The main goal, is to develop sound absorbing structures for broadband absorption; by taking advantage of digital design and Additive Manufacturing techniques. ADAM aims at developing and validating the acoustics theory that describes the relationship between geometry and acoustic performance of interference absorbers. These relations will be encoded in a computational design tool that enables highly customizable solutions for noise and reverberation control. To achieve its goals, the research is based on laboratory tests and simulations and will gradually lead to a series of big scale prototypes that will be applied and tested in various locations in the Netherlands. The project receives support from STW and contributions from related industries (Materialise, Peutz, Merford and ARUP). Email: [email protected] Phone: 0642875665 Main Question: How to achieve broadband sound absorption at low frequencies based upon digital design and manufacturing technologies ? Research Methodology: Simulations, prototyping, physical measurements, parametric design, case studies. Deliverables: 1:1 scale prototypes of 3d-printed sound absorbing structures Design method Key Publications: Setaki, F., Tenpierik, M., van Timmeren, A. & Turrin, M., New Sound Absorption Materials: Using Additive Manufacturing for Compact Size, Broadband Sound Absorption at Low Frequencies, 2016 Proceedings of the 45th International Congress on Noise Control Engineering: Inter-Noise 2016. Kropp, W. (ed.). Berlin: German Acoustical Society (DEGA), p. 4073-4078 6 p. Setaki, F., Tenpierik, M. J., Turrin, M. & van Timmeren, Acoustic Absorbers by Additive Manufacturing, A. 2014 In : Building and Environment. 72, February, p. 188-200 13 p. Link(s): http://www.stw.nl/nl/content/acoustic s-parametric-design-and-additive- manufacturing Updated: November 2, 2016
Transcript of Urbanism Department (/Chair of Environmental Technologies ... · Acoustic Design and Additive...
TU Del f t , Facul t y of Ar chi t ect ur e and t he Bui l t Envi r onment , [ A+BE] Gr aduat e School
Acoustic Design and Additive Manufacturing
Keywords: Acoustics, Sound Absorption, Additive Manufacturing
Urbanism Department (/Chair of Environmental Technologies and Design)
Area of Research: Computation & Performance Foteini Setaki
PhD started in: 2015, TUD
MSc Building Technology, 2012, TUD
Architecture Diploma, 2008, NTUA
Promoter(s):
Arjan van Timmeren
Daily Supervisor(s):
Martin Tenpierik
Michela Turrin
Research Summary: This PhD is part of the research project ADAM: Acoustic by parametric Design and Additive Manufacturing. The main goal, is to develop sound absorbing structures for broadband absorption; by taking advantage of digital design and Additive Manufacturing techniques. ADAM aims at developing and validating the acoustics theory that describes the relationship between geometry and acoustic performance of interference absorbers. These relations will be encoded in a computational design tool that enables highly customizable solutions for noise and reverberation control. To achieve its goals, the research is based on laboratory tests and simulations and will gradually lead to a series of big scale prototypes that will be applied and tested in various locations in the Netherlands. The project receives support from STW and contributions from related industries (Materialise, Peutz, Merford and ARUP).
Email: [email protected]
Phone: 0642875665
Main Question:
How to achieve broadband sound absorption at low frequencies based upon digital design and manufacturing technologies ?
Research Methodology:
Simulations, prototyping, physical measurements, parametric design, case studies.
Deliverables:
1:1 scale prototypes of 3d-printed sound absorbing structures
Design method
Key Publications:
Setaki, F., Tenpierik, M., van Timmeren, A. & Turrin, M., New Sound Absorption Materials: Using Additive Manufacturing for Compact Size, Broadband Sound Absorption at Low Frequencies, 2016 Proceedings of the 45th International Congress on Noise Control Engineering: Inter-Noise 2016. Kropp, W. (ed.). Berlin: German Acoustical Society (DEGA), p. 4073-4078 6 p.
Setaki, F., Tenpierik, M. J., Turrin, M. & van Timmeren, Acoustic Absorbers by Additive Manufacturing, A. 2014 In : Building and Environment. 72, February, p. 188-200 13 p.
Link(s): http://www.stw.nl/nl/content/acoustics-parametric-design-and-additive-manufacturing
Updated: November 2, 2016
