Experimental characterization of three-dimensional Graphene’s thermoacoustic response and its theoretical modelling
In the past decade, a lot of research has been conducted on the potential of carbon nanostructured materials to emit sound via thermoacoustics through both simulations and experiments. However, experimental validation of simulations for three-dimensional graphene (3D-C), which has a complicated 3D s...
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sg-ntu-dr.10356-1435322021-02-05T02:27:36Z Experimental characterization of three-dimensional Graphene’s thermoacoustic response and its theoretical modelling Ngoh, Zhi Lin Guiraud, Pierre Tan, Dunlin Giordano, Stefano Bou-Matar, Olivier Teo, Edwin Hang Tong Pernod, Philippe Coquet, Philippe Lardat, Raphael School of Electrical and Electronic Engineering Thales Solutions Asia Pte Ltd Thales Underwater Systems Temasek Laboratories Engineering::Electrical and electronic engineering::Nanoelectronics Three-dimensional Graphene Thermoacoustics In the past decade, a lot of research has been conducted on the potential of carbon nanostructured materials to emit sound via thermoacoustics through both simulations and experiments. However, experimental validation of simulations for three-dimensional graphene (3D-C), which has a complicated 3D structure, has yet to be achieved. In this paper, 3D-C is synthesized via thermal chemical vapor deposition and its microstructure and quality tested using Scanning Electron Microscopy and Raman spectroscopy respectively. Then, a two temperature model is used to predict the effects of numerous parameters: frequency, input power, sample size, connection area, connection path, pores per inch, thickness, compression as well as the addition of a backing on the acoustic performance and temperature of the sample. The experimental results presented in this paper validate the predictions of the adopted two temperature model. The efficiency of 3D-C is then compared with results presented in other studies to understand how the presented 3D-C fared against ones from the literature as well as other carbon nanostructured materials. Accepted version This study is supported in part by the Economic Development Board of Singapore under the Industrial Postgraduate Program (EDB-IPP) with Thales Solutions Asia Pte Ltd and Temasek Laboratories@Nanyang Technological University seed funding. It is also supported by the French DGA (Direction Générale de l'Armement) under the Conventions Industrielles de Formation par la REcherche Program (CIFRE) with Thales Underwater Systems. This study is developed in collaboration with CINTRA, UMI 3288 CNRS/NTU/THALES (Singapore). 2020-09-08T01:06:12Z 2020-09-08T01:06:12Z 2020 Journal Article Ngoh, Z. L., Guiraud, P., Tan, D., Giordano, S., Bou-Matar, O., Teo, E. H. T., ... Lardat, R. (2020). Experimental characterization of three-dimensional Graphene’s thermoacoustic response and its theoretical modelling. Carbon, 169, 382-394. doi:10.1016/j.carbon.2020.06.045 0008-6223 https://hdl.handle.net/10356/143532 10.1016/j.carbon.2020.06.045 169 382 394 en Carbon © 2020 Elsevier. All rights reserved. This paper was published in Carbon and is made available with permission of Elsevier. application/msword application/octet-stream application/octet-stream application/octet-stream application/pdf application/msword |
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Engineering::Electrical and electronic engineering::Nanoelectronics Three-dimensional Graphene Thermoacoustics |
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Engineering::Electrical and electronic engineering::Nanoelectronics Three-dimensional Graphene Thermoacoustics Ngoh, Zhi Lin Guiraud, Pierre Tan, Dunlin Giordano, Stefano Bou-Matar, Olivier Teo, Edwin Hang Tong Pernod, Philippe Coquet, Philippe Lardat, Raphael Experimental characterization of three-dimensional Graphene’s thermoacoustic response and its theoretical modelling |
| description |
In the past decade, a lot of research has been conducted on the potential of carbon nanostructured materials to emit sound via thermoacoustics through both simulations and experiments. However, experimental validation of simulations for three-dimensional graphene (3D-C), which has a complicated 3D structure, has yet to be achieved. In this paper, 3D-C is synthesized via thermal chemical vapor deposition and its microstructure and quality tested using Scanning Electron Microscopy and Raman spectroscopy respectively. Then, a two temperature model is used to predict the effects of numerous parameters: frequency, input power, sample size, connection area, connection path, pores per inch, thickness, compression as well as the addition of a backing on the acoustic performance and temperature of the sample. The experimental results presented in this paper validate the predictions of the adopted two temperature model. The efficiency of 3D-C is then compared with results presented in other studies to understand how the presented 3D-C fared against ones from the literature as well as other carbon nanostructured materials. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Ngoh, Zhi Lin Guiraud, Pierre Tan, Dunlin Giordano, Stefano Bou-Matar, Olivier Teo, Edwin Hang Tong Pernod, Philippe Coquet, Philippe Lardat, Raphael |
| format |
Article |
| author |
Ngoh, Zhi Lin Guiraud, Pierre Tan, Dunlin Giordano, Stefano Bou-Matar, Olivier Teo, Edwin Hang Tong Pernod, Philippe Coquet, Philippe Lardat, Raphael |
| author_sort |
Ngoh, Zhi Lin |
| title |
Experimental characterization of three-dimensional Graphene’s thermoacoustic response and its theoretical modelling |
| title_short |
Experimental characterization of three-dimensional Graphene’s thermoacoustic response and its theoretical modelling |
| title_full |
Experimental characterization of three-dimensional Graphene’s thermoacoustic response and its theoretical modelling |
| title_fullStr |
Experimental characterization of three-dimensional Graphene’s thermoacoustic response and its theoretical modelling |
| title_full_unstemmed |
Experimental characterization of three-dimensional Graphene’s thermoacoustic response and its theoretical modelling |
| title_sort |
experimental characterization of three-dimensional graphene’s thermoacoustic response and its theoretical modelling |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/143532 |
| _version_ |
1692012943944712192 |