Dr Haydar Aygun

NameDr Haydar Aygun
Job titleAssociate Professor
Organisational UnitCivil and Building Services Engineering
ORCIDhttps://orcid.org/0000-0002-3524-1176

Research outputs

Structural and acoustical performance of recycled glass bead panels

Aygun, H. and McCann, F (2020). Structural and acoustical performance of recycled glass bead panels. Construction and Building Materials. 258, pp. 119581-119581. https://doi.org/10.1016/j.conbuildmat.2020.119581

Scattering of acoustic waves in air and water filled 3D stereo-lithographical (STL) porous rigid materials

Aygun, H (2020). Scattering of acoustic waves in air and water filled 3D stereo-lithographical (STL) porous rigid materials. Inter-Noise 2020, Seoul. Seoul 23 - 26 Aug 2020

The quality and reliability of the mechanical stethoscopes and Laser Doppler Vibrometer (LDV) to record tracheal sounds

Aygun, H. and Apolskis, A. (2020). The quality and reliability of the mechanical stethoscopes and Laser Doppler Vibrometer (LDV) to record tracheal sounds. Applied Acoustics. 161, p. 107159. https://doi.org/10.1016/j.apacoust.2019.107159

Measurement methods of acoustics properties for alternative ventilation ducts

Zekic, S, Gomez-Agustina, L, Aygun, H and Chaer, I (2020). Measurement methods of acoustics properties for alternative ventilation ducts. Inter Noise 2020. Seoul 23 - 26 Aug 2020 International Institute of Noise Control Engineering .

Experimental validation of deep-subwavelength by diffsuion by acoustic metadiiffusers

Dance, S., Ballestero, E., Aygun, H., Jimenez, N., Groby, J-P. and Romero-Garcia, V. (2019). Experimental validation of deep-subwavelength by diffsuion by acoustic metadiiffusers. Applied Physics Letters. 115 (8). https://doi.org/10.1063/1.5114877

A viscoelastic system for determining acoustical and mechanical parameters of the bone

Aygun, H. (2019). A viscoelastic system for determining acoustical and mechanical parameters of the bone. Applied Acoustics. 150, pp. 70-75. https://doi.org/10.1016/j.apacoust.2019.01.034

Investigation of acoustical and structural parameters of recycled glass bead composite panels

Aygun, H and McCann, F (2019). Investigation of acoustical and structural parameters of recycled glass bead composite panels. Inter.Noise 2019 - the 48th International Congress and Exhibition on Noise Control Engineering. Madrid, Spain 17 - 21 Jun 2019

Determining mechanical parameters of the bone using a vibro-acoustic method

Aygun, H (2019). Determining mechanical parameters of the bone using a vibro-acoustic method. Acoustics 2019. Milton Keynes, UK 13 - 14 May 2019

Tracheal Sound Acquisition Using Laser Doppler Vibrometer

Aygun, H. and Apolskis, A (2018). Tracheal Sound Acquisition Using Laser Doppler Vibrometer. ACOUSTICS 2018 - ACWSTEG 2018. City Hall, Cathay's Park, Cardiff 23 - 24 Apr 2018 London South Bank University.

Characterization of Acoustical Properties of Felt and Carpet Made of Natural and Environmentally Friendly Materials

Aygun, H. (2017). Characterization of Acoustical Properties of Felt and Carpet Made of Natural and Environmentally Friendly Materials. Open Journal of Acoustics. 7 (2), pp. 27-38. https://doi.org/10.4236/oja.2017.72004

Why research informed teaching (RIT) in acoustics education: How can we embed research in acoustics education to improve students' learning?

Aygun, H. (2017). Why research informed teaching (RIT) in acoustics education: How can we embed research in acoustics education to improve students' learning? 24th International Congress on Sound and Vibration. London, UK 23 - 27 Jul 2017 London South Bank University.

Investigation of acoustic performance of compressed wool carpets

Aygun, H. (2016). Investigation of acoustic performance of compressed wool carpets. 23rd International Congress on Sound and Vibration. Athens, Greece 10 - 14 Jul 2016 London South Bank University.

Behaviour of ultrasonic waves in porous rigid materials: an anisotropic Biot-Attenborough model

Aygun, H. and Barlow, C (2015). Behaviour of ultrasonic waves in porous rigid materials: an anisotropic Biot-Attenborough model. Journal of Physics: Conference Series. 581, pp. 1-12. https://doi.org/10.1088/1742-6596/581/1/012006

Ultrasonic wave propagation through porous ceramics at different angles of propagation

Aygun, H. and Barlow, C (2014). Ultrasonic wave propagation through porous ceramics at different angles of propagation. Applied Acoustics. 88 (0), pp. 6-11. https://doi.org/10.1016/j.apacoust.2014.07.011

Behaviour of acoustic waves in a duct with Helmholtz resonator in presence of a temperature gradient

Aygun, H. and Rubini, P (2014). Behaviour of acoustic waves in a duct with Helmholtz resonator in presence of a temperature gradient. Institute of Acoustics 40th Anniversary Conference. NEC, Birmingham, UK 15 - 16 Oct 2014 http://toc.proceedings.com/24268webtoc.pdf Proceedings of the Institute of Acoustics Volume 36 Pt.3.

A Review of the State of Art in Applying Biot Theory to Acoustic Propagation through the Bone

Aygun, H., Attenborough, K and Postema, M (2014). A Review of the State of Art in Applying Biot Theory to Acoustic Propagation through the Bone. Open Access Library Journal. 1 (9), pp. 1-12. https://doi.org/10.4236/oalib.1100994.

Sound radiation from composite plates

Aygun, H. Sound radiation from composite plates. Acoustics 2021. Institute of Acoustics, Silbury Court, 406 Silbury Boulevard, Milton Keynes MK9 2AF 11 - 12 Oct 2021 The Institute of Acoustics.

Metadiffusers for quasi-perfect and broadband sound diffusion

Ballestero, E., Jiménez, N., Groby, J., Aygun, H., Dance, S. and Romero-García, V. (2021). Metadiffusers for quasi-perfect and broadband sound diffusion. Applied Physics Letters. 119 (4), p. 044101. https://doi.org/10.1063/5.0053413

Scattering Evaluation of Equivalent Surface Impedances of Acoustic Metamaterials in Large FDTD Volumes Using RLC Circuit Modelling

Ballestero, E., Hamilton, B., Jiménez, N., Romero-García, V., Groby, J., Aygun, H. and Dance, S. (2021). Scattering Evaluation of Equivalent Surface Impedances of Acoustic Metamaterials in Large FDTD Volumes Using RLC Circuit Modelling. Applied Sciences. 11 (17), p. e8084. https://doi.org/10.3390/app11178084
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