CONDENSED MATTER: STRUCTURE, MECHANICAL AND THERMAL PROPERTIES |
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Temperature Effects of Electrorheological Fluids Based on One-Dimensional Calcium and Titanium Precipitate |
YAN Ren-Jie1, WU Jing-Hua2, LI Cong1, XU Gao-Jie2, ZHOU Lu-Wei1** |
1State Key Laboratory of Surface Physics, and Department of Physics, Fudan University, Shanghai 200433 2Ningbo Institute of Material Technology and Engineering, Chinese Academy of Sciences, Ningbo 315201
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Cite this article: |
YAN Ren-Jie, WU Jing-Hua, LI Cong et al 2013 Chin. Phys. Lett. 30 016202 |
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Abstract Electrorheological (ER) fluids based on nanorods of calcium and titanium precipitate (CTP) possess good ER performance. We investigate the shear stress and leaking current of CTP suspension from ?15 to 230°C, and it is found that the ER effect increases at up to 150°C. Dielectric spectra of the CTP suspension at different temperatures indicate that the change of interface polarization can perfectly interpret the increment of ER effect and leaking current. The Fourier transform infrared (FTIR) spectroscopy test shows that some compositions of the CTP particles decompose at temperature of 180°C, which leads to a consequential decrease of ER effect. Through thermogravimetric and differential thermal analyses (TG-DTA), we find that TiOC2O4(H2O)2 plays a key role in the dielectric property and ER effect of CTP suspension.
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Received: 24 September 2012
Published: 04 March 2013
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PACS: |
62.25.-g
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(Mechanical properties of nanoscale systems)
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77.22.Gm
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(Dielectric loss and relaxation)
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77.22.Ej
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(Polarization and depolarization)
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