Synthesis of monodisperse CeO2-ZrO2 particles exhibiting cyclic superelasticity over hundreds of cycles
Nano- and microscale CeO2–ZrO2 (CZ) shape memory ceramics are promising materials for smart micro-electro-mechanical systems (MEMS), sensing, actuation and energy damping applications, but the processing science for scalable production of such small volume ceramics has not yet been established. Here...
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sg-ntu-dr.10356-866982020-09-26T22:18:54Z Synthesis of monodisperse CeO2-ZrO2 particles exhibiting cyclic superelasticity over hundreds of cycles Du, Zehui Ye, Pengcheng Zeng, Xiao Mei Schuh, Christopher A. Tamura, Nobumichi Zhou, Xinran Gan, Chee Lip School of Materials Science & Engineering Temasek Laboratories CeO2–ZrO2 Particles Nano- and microscale CeO2–ZrO2 (CZ) shape memory ceramics are promising materials for smart micro-electro-mechanical systems (MEMS), sensing, actuation and energy damping applications, but the processing science for scalable production of such small volume ceramics has not yet been established. Herein, we report a modified sol-gel method to synthesize highly monodisperse spherical CZ particles with diameters in the range of ~0.8-3.0 μm. Synchrotron X-ray micro-diffraction (μSXRD) confirmed that most of the particles are single crystal after annealing at 1450°C. Having a monocrystalline structure and a small specimen length scale, the particles exhibit significantly enhanced shape memory and superelasticity properties with up to ~4.7% compression being completely recoverable. Highly reproducible superelasticity through over five hundred strain cycles, with dissipated energy up to ~40 MJ/m3 per cycle, is achieved in the CZ particles containing 16 mol% ceria. This cycling capability is enhanced by ten times compared with our first demonstration using micropillars (only 50 cycles in Lai et al, Science, 2013, 341, 1505). Furthermore, the effects of cycling and testing temperature (in 25°C-400°C) on superelasticity have been investigated. Accepted version 2017-12-21T08:36:44Z 2019-12-06T16:27:36Z 2017-12-21T08:36:44Z 2019-12-06T16:27:36Z 2017 Journal Article Du, Z., Ye, P., Zeng, X. M., Schuh, C. A., Tamura, N., Zhou, X., et al. (2017). Synthesis of monodisperse CeO2-ZrO2 particles exhibiting cyclic superelasticity over hundreds of cycles. Journal of the American Ceramic Society, 100(9), 4199-4208. 0002-7820 https://hdl.handle.net/10356/86698 http://hdl.handle.net/10220/44187 10.1111/jace.14972 en Journal of the American Ceramic Society © 2017 The American Ceramic Society. This is the author created version of a work that has been peer reviewed and accepted for publication by Journal of the American Ceramic Society, The American Ceramic Society. It incorporates referee’s comments but changes resulting from the publishing process, such as copyediting, structural formatting, may not be reflected in this document. The published version is available at: [http://dx.doi.org/10.1111/jace.14972]. 31 p. application/pdf |
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CeO2–ZrO2 Particles |
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CeO2–ZrO2 Particles Du, Zehui Ye, Pengcheng Zeng, Xiao Mei Schuh, Christopher A. Tamura, Nobumichi Zhou, Xinran Gan, Chee Lip Synthesis of monodisperse CeO2-ZrO2 particles exhibiting cyclic superelasticity over hundreds of cycles |
| description |
Nano- and microscale CeO2–ZrO2 (CZ) shape memory ceramics are promising materials for smart micro-electro-mechanical systems (MEMS), sensing, actuation and energy damping applications, but the processing science for scalable production of such small volume ceramics has not yet been established. Herein, we report a modified sol-gel method to synthesize highly monodisperse spherical CZ particles with diameters in the range of ~0.8-3.0 μm. Synchrotron X-ray micro-diffraction (μSXRD) confirmed that most of the particles are single crystal after annealing at 1450°C. Having a monocrystalline structure and a small specimen length scale, the particles exhibit significantly enhanced shape memory and superelasticity properties with up to ~4.7% compression being completely recoverable. Highly reproducible superelasticity through over five hundred strain cycles, with dissipated energy up to ~40 MJ/m3 per cycle, is achieved in the CZ particles containing 16 mol% ceria. This cycling capability is enhanced by ten times compared with our first demonstration using micropillars (only 50 cycles in Lai et al, Science, 2013, 341, 1505). Furthermore, the effects of cycling and testing temperature (in 25°C-400°C) on superelasticity have been investigated. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Du, Zehui Ye, Pengcheng Zeng, Xiao Mei Schuh, Christopher A. Tamura, Nobumichi Zhou, Xinran Gan, Chee Lip |
| format |
Article |
| author |
Du, Zehui Ye, Pengcheng Zeng, Xiao Mei Schuh, Christopher A. Tamura, Nobumichi Zhou, Xinran Gan, Chee Lip |
| author_sort |
Du, Zehui |
| title |
Synthesis of monodisperse CeO2-ZrO2 particles exhibiting cyclic superelasticity over hundreds of cycles |
| title_short |
Synthesis of monodisperse CeO2-ZrO2 particles exhibiting cyclic superelasticity over hundreds of cycles |
| title_full |
Synthesis of monodisperse CeO2-ZrO2 particles exhibiting cyclic superelasticity over hundreds of cycles |
| title_fullStr |
Synthesis of monodisperse CeO2-ZrO2 particles exhibiting cyclic superelasticity over hundreds of cycles |
| title_full_unstemmed |
Synthesis of monodisperse CeO2-ZrO2 particles exhibiting cyclic superelasticity over hundreds of cycles |
| title_sort |
synthesis of monodisperse ceo2-zro2 particles exhibiting cyclic superelasticity over hundreds of cycles |
| publishDate |
2017 |
| url |
https://hdl.handle.net/10356/86698 http://hdl.handle.net/10220/44187 |
| _version_ |
1681058767738765312 |