Yao, Li ; Yang, Wenqiang ; Zhou, Shixiang ; Mei, Hui ; Li, Yang ; Dassios, Konstantinos G. ; Riedel, Ralf ; Liu, Chidong ; Cheng, Laifei ; Zhang, Litong (2023)
Top-down parametrization-design of orientation-reinforced SiOC-based perfect metamaterial microwave absorber with wide-temperature adaptability.
In: Acta Materialia, 249
doi: 10.1016/j.actamat.2023.118803
Article
Abstract
Conventional experientialism-inspired and intuition-inspired research on microwave-absorbing (MA) materials appears to lack efficiency. The present work aims to establish a scalable parametrization-design methodology for multifunctional coupled MA metamaterials involving up-front theoretical calculation and simulation predictions followed by experimental verification. A top-down parametrization-design methodology is proposed herein, which relies on the utilization of polymer-derived ceramics (PDCs) with flexible electromagnetic tunability as substrate materials, combined with tunable electromagnetic response via mathematical modeling of triply-periodic-minimal-surfaces shellular structures. In the process, preferred structural configuration and orienta-tion are screened with actual requirements while final fabrication in a single step is enabled by 3D printing technology. The effect of structural configuration and orientation on electromagnetic response is scrutinized and a novel optimization method for deterministic high-temperature MA properties is proposed. As-fabricated [111]-oriented Gyroid shellular MA metamaterials exhibit superior overall performance in the X-Ku band with wide-temperature adaptability. At room temperature, the minimal reflection loss (RLmin) value is -58.05 dB, effec-tive absorbing bandwidth (EAB) with RL <= -10 dB reaches 6.11 GHz, and the specific strength reaches 65.20 MPa/(g/cm3) at the ultralow density of 0.550 g/cm3. RLmin improves to -72.38 dB at 100 degrees C while EAB increases to 6.77 GHz at 300 degrees C and retains 5.60 GHz at 600 degrees C.
| Item Type: | Article |
|---|---|
| Erschienen: | 2023 |
| Creators: | Yao, Li ; Yang, Wenqiang ; Zhou, Shixiang ; Mei, Hui ; Li, Yang ; Dassios, Konstantinos G. ; Riedel, Ralf ; Liu, Chidong ; Cheng, Laifei ; Zhang, Litong |
| Type of entry: | Bibliographie |
| Title: | Top-down parametrization-design of orientation-reinforced SiOC-based perfect metamaterial microwave absorber with wide-temperature adaptability |
| Language: | English |
| Date: | 1 May 2023 |
| Publisher: | Elsevier |
| Journal or Publication Title: | Acta Materialia |
| Volume of the journal: | 249 |
| DOI: | 10.1016/j.actamat.2023.118803 |
| Abstract: | Conventional experientialism-inspired and intuition-inspired research on microwave-absorbing (MA) materials appears to lack efficiency. The present work aims to establish a scalable parametrization-design methodology for multifunctional coupled MA metamaterials involving up-front theoretical calculation and simulation predictions followed by experimental verification. A top-down parametrization-design methodology is proposed herein, which relies on the utilization of polymer-derived ceramics (PDCs) with flexible electromagnetic tunability as substrate materials, combined with tunable electromagnetic response via mathematical modeling of triply-periodic-minimal-surfaces shellular structures. In the process, preferred structural configuration and orienta-tion are screened with actual requirements while final fabrication in a single step is enabled by 3D printing technology. The effect of structural configuration and orientation on electromagnetic response is scrutinized and a novel optimization method for deterministic high-temperature MA properties is proposed. As-fabricated [111]-oriented Gyroid shellular MA metamaterials exhibit superior overall performance in the X-Ku band with wide-temperature adaptability. At room temperature, the minimal reflection loss (RLmin) value is -58.05 dB, effec-tive absorbing bandwidth (EAB) with RL <= -10 dB reaches 6.11 GHz, and the specific strength reaches 65.20 MPa/(g/cm3) at the ultralow density of 0.550 g/cm3. RLmin improves to -72.38 dB at 100 degrees C while EAB increases to 6.77 GHz at 300 degrees C and retains 5.60 GHz at 600 degrees C. |
| Uncontrolled Keywords: | parametrization-design, orientation reinforcement, structure-function integration, TPMS-shellular, Wide-temperature adaptability, absorption, permitivity, behavior |
| Additional Information: | Artikel-ID: 118803 |
| Divisions: | 11 Department of Materials and Earth Sciences 11 Department of Materials and Earth Sciences > Material Science 11 Department of Materials and Earth Sciences > Material Science > Dispersive Solids |
| Date Deposited: | 26 Apr 2023 08:40 |
| Last Modified: | 26 Apr 2023 08:40 |
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