Projects funded by the NCN
Impact of the 3D printing process on the acoustic properties of porous materials
2020/37/N/ST8/04071
Keywords:
sound absorbing material porous medium microstructure-based modelling 3D printing
Descriptors:
- ST8_3: Computational engineering, computer-aided modelling, design and manufacturing
- ST8_13: Architectural acoustics
- ST5_6: Porous materials, ceramics, glasses
Panel:
ST8 - Production and processes engineering: modelling, product design, process design and control, construction methods and engineering, power units and systems
Host institution :
Instytut Podstawowych Problemów Techniki Polskiej Akademii Nauk
woj.
Principal investigator (from the host institution):
Number of co-investigators in the project: 2
Call: PRELUDIUM 19 - announced on 2020-03-16
Amount awarded: 139 920 PLN
Project start date (Y-m-d): 2021-02-01
Project end date (Y-m-d): 2025-01-31
Project duration:: 48 months (the same as in the proposal)
Project status: Project completed
Project description
Download the project description in a pdf file
Note - project descriptions were prepared by the authors of the applications themselves and placed in the system in an unchanged form.
Information in the final report
- Publication in academic press/journals (3)
- Articles in post-conference publications (4)
- Limitations on validating slitted sound absorber designs through budget additive manufacturingAuthors:Kamil C. Opiela, Tomasz G. Zieliński, Keith AttenboroughAcademic press:Materials & Design (rok: 2022, tom: 218, strony: 110703 (1-17)), Wydawca: ElsevierStatus:PublishedDOI:10.1016/j.matdes.2022.110703 - link to the publication
- Limitations on validating slitted sound absorber designs through budget additive manufacturingAuthors:Kamil C. Opiela, Tomasz G. Zieliński, Keith AttenboroughAcademic press:Materials & Design (rok: 2022, tom: 218, strony: 110703 (1-17)), Wydawca: ElsevierStatus:PublishedDOI:10.1016/j.matdes.2022.110703 - link to the publication
- Limitations on validating slitted sound absorber designs through budget additive manufacturingAuthors:Kamil C. Opiela, Tomasz G. Zieliński, Keith AttenboroughAcademic press:Materials & Design (rok: 2022, tom: 218, strony: 110703 (1-17)), Wydawca: ElsevierStatus:PublishedDOI:10.1016/j.matdes.2022.110703 - link to the publication
- Predicting sound absorption in additively manufactured porous materials using multiscale simulations in FEniCSAuthors:Kamil C. Opiela, Tomasz G. ZielińskiConference:Proceedings of FEniCS 2021 (rok: 2021, tom: FEniCS 2021, strony: 370), Wydawca: FigshareData:konferencja 2021.03.22-26Status:PublishedDOI:10.6084/m9.figshare.14495349 - link to the publication
- Predicting sound absorption in additively manufactured porous materials using multiscale simulations in FEniCSAuthors:Kamil C. Opiela, Tomasz G. ZielińskiConference:Proceedings of FEniCS 2021 (rok: 2021, tom: FEniCS 2021, strony: 370), Wydawca: FigshareData:konferencja 2021.03.22-26Status:PublishedDOI:10.6084/m9.figshare.14495349 - link to the publication
- Predicting sound absorption in additively manufactured porous materials using multiscale simulations in FEniCSAuthors:Kamil C. Opiela, Tomasz G. ZielińskiConference:Proceedings of FEniCS 2021 (rok: 2021, tom: FEniCS 2021, strony: 370), Wydawca: FigshareData:konferencja 2021.03.22-26Status:PublishedDOI:10.6084/m9.figshare.14495349 - link to the publication
- Modifiable labyrinthine microstructure for adjustable sound absorption and insulationAuthors:Kamil C. Opiela, Tomasz G. ZielińskiConference:Proceedings of the 10th Convention of the European Acoustics Association - Forum Acusticum 2023 (rok: 2023, tom: Forum Acusticum 2023, Convention of the European Acoustics Association, strony: 2937-2942), Wydawca: Politecnico di TorinoData:konferencja 2023.09.11-15Status:PublishedDOI:10.61782/fa.2023.0866 - link to the publication