High-throughput microstructure and composition characterisation of microplatelet reinforced composites using directional reflectance microscopy
Reinforced composites with controlled microstructure can achieve exceptional mechanical and functional properties. In recent years, scientists have placed in substantial efforts to fabricate reinforced composites with astounding properties through the design of these microstructures. To better under...
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sg-ntu-dr.10356-1621472022-10-05T07:53:00Z High-throughput microstructure and composition characterisation of microplatelet reinforced composites using directional reflectance microscopy Chou, Vanessa Hui Yin Liu, Wing Chung Wittwer, Mallory Le Ferrand, Hortense Seita, Matteo School of Mechanical and Aerospace Engineering School of Materials Science and Engineering Engineering::Mechanical engineering Engineering::Materials Composites Microstructures Reinforced composites with controlled microstructure can achieve exceptional mechanical and functional properties. In recent years, scientists have placed in substantial efforts to fabricate reinforced composites with astounding properties through the design of these microstructures. To better understand the structure-property relationships of these materials, it is essential to characterise their microstructural features. However, standard characterisation techniques such as electron-based imaging are costly, time-consuming, and restricted to small-scale samples. In this work, we present a simple, inexpensive, and high-throughput alternative method to assess the surface microstructure of microplatelet reinforced composites. The method relies on directional reflectance microscopy (DRM), an optical technique that enables mapping of the filler orientation and weight fraction in these composites using surface reflectance data. We demonstrate the effective use of DRM on reflective microplatelet-reinforced polymeric composites that we prepared using 3D printing and mould casting techniques. Our experimental results showcase the potential of DRM as a high-throughput method to assess microstructural information in reinforced composites. This information could be used to understand how the microplatelets’ alignments influence the materials’ properties for devising new composite designs. Ministry of Education (MOE) This research was funded by the Ministry of Education of Singapore, Official Number: MOE2017-T2-2-119. 2022-10-05T07:53:00Z 2022-10-05T07:53:00Z 2022 Journal Article Chou, V. H. Y., Liu, W. C., Wittwer, M., Le Ferrand, H. & Seita, M. (2022). High-throughput microstructure and composition characterisation of microplatelet reinforced composites using directional reflectance microscopy. Acta Materialia, 229, 117798-. https://dx.doi.org/10.1016/j.actamat.2022.117798 1359-6454 https://hdl.handle.net/10356/162147 10.1016/j.actamat.2022.117798 2-s2.0-85125636259 229 117798 en MOE2017-T2-2-119 Acta Materialia © 2022 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved. |
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Engineering::Mechanical engineering Engineering::Materials Composites Microstructures Chou, Vanessa Hui Yin Liu, Wing Chung Wittwer, Mallory Le Ferrand, Hortense Seita, Matteo High-throughput microstructure and composition characterisation of microplatelet reinforced composites using directional reflectance microscopy |
| description |
Reinforced composites with controlled microstructure can achieve exceptional mechanical and functional properties. In recent years, scientists have placed in substantial efforts to fabricate reinforced composites with astounding properties through the design of these microstructures. To better understand the structure-property relationships of these materials, it is essential to characterise their microstructural features. However, standard characterisation techniques such as electron-based imaging are costly, time-consuming, and restricted to small-scale samples. In this work, we present a simple, inexpensive, and high-throughput alternative method to assess the surface microstructure of microplatelet reinforced composites. The method relies on directional reflectance microscopy (DRM), an optical technique that enables mapping of the filler orientation and weight fraction in these composites using surface reflectance data. We demonstrate the effective use of DRM on reflective microplatelet-reinforced polymeric composites that we prepared using 3D printing and mould casting techniques. Our experimental results showcase the potential of DRM as a high-throughput method to assess microstructural information in reinforced composites. This information could be used to understand how the microplatelets’ alignments influence the materials’ properties for devising new composite designs. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Chou, Vanessa Hui Yin Liu, Wing Chung Wittwer, Mallory Le Ferrand, Hortense Seita, Matteo |
| format |
Article |
| author |
Chou, Vanessa Hui Yin Liu, Wing Chung Wittwer, Mallory Le Ferrand, Hortense Seita, Matteo |
| author_sort |
Chou, Vanessa Hui Yin |
| title |
High-throughput microstructure and composition characterisation of microplatelet reinforced composites using directional reflectance microscopy |
| title_short |
High-throughput microstructure and composition characterisation of microplatelet reinforced composites using directional reflectance microscopy |
| title_full |
High-throughput microstructure and composition characterisation of microplatelet reinforced composites using directional reflectance microscopy |
| title_fullStr |
High-throughput microstructure and composition characterisation of microplatelet reinforced composites using directional reflectance microscopy |
| title_full_unstemmed |
High-throughput microstructure and composition characterisation of microplatelet reinforced composites using directional reflectance microscopy |
| title_sort |
high-throughput microstructure and composition characterisation of microplatelet reinforced composites using directional reflectance microscopy |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162147 |
| _version_ |
1746219667653918720 |