Mechanical response of shear thickening fluid filled composite subjected to different strain rates
Shear thickening fluid (STF) has been used in many areas due to its unique rheological property. In this study, the dynamic mechanical properties of STF-filled composite structures were investigated by in-house fabricated drop weight testing apparatuses. Results indicated that the strength and modul...
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sg-ntu-dr.10356-1595262022-06-24T07:24:26Z Mechanical response of shear thickening fluid filled composite subjected to different strain rates Zhang, Xin Wang, Pengfei Kurkin, Anatoli Chen, Qian Gong, Xinglong Zhang, Zhong Yang, En-Hua Yang, Jinglei School of Civil and Environmental Engineering School of Materials Science and Engineering Engineering::Civil engineering Engineering::Materials Impact Behavior Energy Absorption Shear thickening fluid (STF) has been used in many areas due to its unique rheological property. In this study, the dynamic mechanical properties of STF-filled composite structures were investigated by in-house fabricated drop weight testing apparatuses. Results indicated that the strength and modulus increase with strain rate for all tube structures. Liquid-filled tubes possess similar strength and modulus, which are larger than air-filled tube at all strain rates. However, STF-filled tube absorbs 5 and 4 times more impact energy than air- and silicone oil-filled tubes, respectively. The energy absorption capacity of STF-filled tube increases with input impact energy. Meanwhile, the shear thickening effect of STF is more sensitive to the loading rate than the input energy, which is an important reference for the designing of STF integrated composite. The STF-filled silicone gel achieves repeatable test due to good protection of the encapsulation, which absorbs 4 times more energy than neat silicone gel during impact. Longitudinal symmetrical profile can be achieved for silicone gel encapsulated STF during impact due to the hardening of the STF which leads to a quick balance state. Moreover, the mechanical response of STF is found to correspond with the rheological performance of the STF. The authors acknowledged the supports from The Hong Kong University of Science and Technology (Grant #: R9365), the NSFC/HK-RGC Joint Research Scheme (Grants #: N_HKUST 631/18 and 51861165103), and Nanhai-HKUST Program (Grant #: FSNH-18FYTRI01). 2022-06-24T07:24:26Z 2022-06-24T07:24:26Z 2021 Journal Article Zhang, X., Wang, P., Kurkin, A., Chen, Q., Gong, X., Zhang, Z., Yang, E. & Yang, J. (2021). Mechanical response of shear thickening fluid filled composite subjected to different strain rates. International Journal of Mechanical Sciences, 196, 106304-. https://dx.doi.org/10.1016/j.ijmecsci.2021.106304 0020-7403 https://hdl.handle.net/10356/159526 10.1016/j.ijmecsci.2021.106304 2-s2.0-85100439582 196 106304 en International Journal of Mechanical Sciences © 2021 Elsevier Ltd. All rights reserved. |
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Engineering::Civil engineering Engineering::Materials Impact Behavior Energy Absorption Zhang, Xin Wang, Pengfei Kurkin, Anatoli Chen, Qian Gong, Xinglong Zhang, Zhong Yang, En-Hua Yang, Jinglei Mechanical response of shear thickening fluid filled composite subjected to different strain rates |
| description |
Shear thickening fluid (STF) has been used in many areas due to its unique rheological property. In this study, the dynamic mechanical properties of STF-filled composite structures were investigated by in-house fabricated drop weight testing apparatuses. Results indicated that the strength and modulus increase with strain rate for all tube structures. Liquid-filled tubes possess similar strength and modulus, which are larger than air-filled tube at all strain rates. However, STF-filled tube absorbs 5 and 4 times more impact energy than air- and silicone oil-filled tubes, respectively. The energy absorption capacity of STF-filled tube increases with input impact energy. Meanwhile, the shear thickening effect of STF is more sensitive to the loading rate than the input energy, which is an important reference for the designing of STF integrated composite. The STF-filled silicone gel achieves repeatable test due to good protection of the encapsulation, which absorbs 4 times more energy than neat silicone gel during impact. Longitudinal symmetrical profile can be achieved for silicone gel encapsulated STF during impact due to the hardening of the STF which leads to a quick balance state. Moreover, the mechanical response of STF is found to correspond with the rheological performance of the STF. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Zhang, Xin Wang, Pengfei Kurkin, Anatoli Chen, Qian Gong, Xinglong Zhang, Zhong Yang, En-Hua Yang, Jinglei |
| format |
Article |
| author |
Zhang, Xin Wang, Pengfei Kurkin, Anatoli Chen, Qian Gong, Xinglong Zhang, Zhong Yang, En-Hua Yang, Jinglei |
| author_sort |
Zhang, Xin |
| title |
Mechanical response of shear thickening fluid filled composite subjected to different strain rates |
| title_short |
Mechanical response of shear thickening fluid filled composite subjected to different strain rates |
| title_full |
Mechanical response of shear thickening fluid filled composite subjected to different strain rates |
| title_fullStr |
Mechanical response of shear thickening fluid filled composite subjected to different strain rates |
| title_full_unstemmed |
Mechanical response of shear thickening fluid filled composite subjected to different strain rates |
| title_sort |
mechanical response of shear thickening fluid filled composite subjected to different strain rates |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/159526 |
| _version_ |
1736856375181443072 |