Limpet teeth microstructure unites auxeticity with extreme strength and high stiffness
Materials displaying negative Poisson's ratio, referred to as auxeticity, have been found in nature and created in engineering through various structural mechanisms. However, uniting auxeticity with high strength and high stiffness has been challenging. Here, combining in situ nanomechanical te...
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sg-ntu-dr.10356-1686962023-06-17T16:48:01Z Limpet teeth microstructure unites auxeticity with extreme strength and high stiffness Oh, Sang Ho Kim, Jin-Kyung Liu, Yue Wurmshuber, Michael Peng, Xiang-Long Seo, Jinsol Jeong, Jiwon Wang, Zhen Wilmers, Jana Soyarslan, Celal Kim, Jongil Kittiwirayanon, Boonsita Jeong, Jeehun Kim, Hyo-Jeong Huh, Yang Hoon Kiener, Daniel Bargmann, Swantje Gao, Huajian School of Mechanical and Aerospace Engineering Institute of High Performance Computing, A*STAR Engineering::Mechanical engineering Biomimetics Iron Oxides Materials displaying negative Poisson's ratio, referred to as auxeticity, have been found in nature and created in engineering through various structural mechanisms. However, uniting auxeticity with high strength and high stiffness has been challenging. Here, combining in situ nanomechanical testing with microstructure-based modeling, we show that the leading part of limpet teeth successfully achieves this combination of properties through a unique microstructure consisting of an amorphous hydrated silica matrix embedded with bundles of single-crystal iron oxide hydroxide nanorods arranged in a pseudo-cholesteric pattern. During deformation, this microstructure allows local coordinated displacement and rotation of the nanorods, enabling auxetic behavior while maintaining one of the highest strengths among natural materials. These findings lay a foundation for designing biomimetic auxetic materials with extreme strength and high stiffness. Published version This work was supported by the National Research Foundation of Korea (NRF) grant NRF-2020R1A2C2101735, NRF-2019M3D1A1078299, and NRF-2018M3C1B7021994 (to S.H.O.), KENTECH Research Grant KRG2022-01-019 (to S.H.O.), German Research Foundation (DFG) grant 192346071 - SFB 986 (to S.B., X.-L.P., C.S., and J.W.), NSF grant CMMI-1562904 (to H.G. and Y.L.), and European Research Council (ERC) grant 771146 TOUGHIT (to D.K. and M.W.). 2023-06-15T05:08:30Z 2023-06-15T05:08:30Z 2022 Journal Article Oh, S. H., Kim, J., Liu, Y., Wurmshuber, M., Peng, X., Seo, J., Jeong, J., Wang, Z., Wilmers, J., Soyarslan, C., Kim, J., Kittiwirayanon, B., Jeong, J., Kim, H., Huh, Y. H., Kiener, D., Bargmann, S. & Gao, H. (2022). Limpet teeth microstructure unites auxeticity with extreme strength and high stiffness. Science Advances, 8(48), eadd4644-. https://dx.doi.org/10.1126/sciadv.add4644 2375-2548 https://hdl.handle.net/10356/168696 10.1126/sciadv.add4644 36459556 2-s2.0-85143300934 48 8 eadd4644 en Science Advances © 2022 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC). application/pdf |
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Engineering::Mechanical engineering Biomimetics Iron Oxides Oh, Sang Ho Kim, Jin-Kyung Liu, Yue Wurmshuber, Michael Peng, Xiang-Long Seo, Jinsol Jeong, Jiwon Wang, Zhen Wilmers, Jana Soyarslan, Celal Kim, Jongil Kittiwirayanon, Boonsita Jeong, Jeehun Kim, Hyo-Jeong Huh, Yang Hoon Kiener, Daniel Bargmann, Swantje Gao, Huajian Limpet teeth microstructure unites auxeticity with extreme strength and high stiffness |
| description |
Materials displaying negative Poisson's ratio, referred to as auxeticity, have been found in nature and created in engineering through various structural mechanisms. However, uniting auxeticity with high strength and high stiffness has been challenging. Here, combining in situ nanomechanical testing with microstructure-based modeling, we show that the leading part of limpet teeth successfully achieves this combination of properties through a unique microstructure consisting of an amorphous hydrated silica matrix embedded with bundles of single-crystal iron oxide hydroxide nanorods arranged in a pseudo-cholesteric pattern. During deformation, this microstructure allows local coordinated displacement and rotation of the nanorods, enabling auxetic behavior while maintaining one of the highest strengths among natural materials. These findings lay a foundation for designing biomimetic auxetic materials with extreme strength and high stiffness. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Oh, Sang Ho Kim, Jin-Kyung Liu, Yue Wurmshuber, Michael Peng, Xiang-Long Seo, Jinsol Jeong, Jiwon Wang, Zhen Wilmers, Jana Soyarslan, Celal Kim, Jongil Kittiwirayanon, Boonsita Jeong, Jeehun Kim, Hyo-Jeong Huh, Yang Hoon Kiener, Daniel Bargmann, Swantje Gao, Huajian |
| format |
Article |
| author |
Oh, Sang Ho Kim, Jin-Kyung Liu, Yue Wurmshuber, Michael Peng, Xiang-Long Seo, Jinsol Jeong, Jiwon Wang, Zhen Wilmers, Jana Soyarslan, Celal Kim, Jongil Kittiwirayanon, Boonsita Jeong, Jeehun Kim, Hyo-Jeong Huh, Yang Hoon Kiener, Daniel Bargmann, Swantje Gao, Huajian |
| author_sort |
Oh, Sang Ho |
| title |
Limpet teeth microstructure unites auxeticity with extreme strength and high stiffness |
| title_short |
Limpet teeth microstructure unites auxeticity with extreme strength and high stiffness |
| title_full |
Limpet teeth microstructure unites auxeticity with extreme strength and high stiffness |
| title_fullStr |
Limpet teeth microstructure unites auxeticity with extreme strength and high stiffness |
| title_full_unstemmed |
Limpet teeth microstructure unites auxeticity with extreme strength and high stiffness |
| title_sort |
limpet teeth microstructure unites auxeticity with extreme strength and high stiffness |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/168696 |
| _version_ |
1772828197422891008 |