Study of a electrorheological fluid: TiO2 coating graphite/silicone oil

被引:0
|
作者
Xu, Su-Juan
Men, Shou-Qiang
Wang, Biao
Lu, Kun-Quan
机构
[1] Institute of Composite Materials, Harbin Institute of Technology, Harbin 150001, China
[2] Institute of Physics, Chinese Academy of Sciences, Beijing 100080, China
来源
| 2000年 / Science Press卷 / 49期
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Theoretical calculation shows that electrorheological fluids with dielectric coating conductive particles as a dispersed phase will give high shear stress. We has coated graphite particles with TiO2 using sol-gel technique. Rutile phase TiO2 coating graphite composite particles have been got. The shear stress of composite particles/silicone oil electrorheological fluid is one order higher than that of the TiO2/silicone oil. When the electric field strength is 1.7 kV/mm, the shear stress of composite particles/silicone oil electrorheological fluid reaches 1.25 kPa, and electric current density is less than 10 μA/cm2.
引用
收藏
相关论文
共 50 条
  • [1] Study of a electrorheological fluid:: TiO2 coating graphite/silicone oil
    Xu, SJ
    Men, SQ
    Wang, B
    Lu, KQ
    ACTA PHYSICA SINICA, 2000, 49 (11) : 2176 - 2179
  • [2] Evaporation enhancement effect of TiO2 nanoparticles on silicone oil in electrorheological fluid suspension
    Wang De
    Shen Rong
    Liu Can-Can
    Wei Shi-Qiang
    Lu Kun-Quan
    ACTA PHYSICA SINICA, 2015, 64 (15)
  • [3] New Dispersed Phase of Electrorheological Fluids:TiO2 Coating Graphite Particles
    Sujuan XU+ and Biao WANG (Harbin Institute of Technology
    Journal of Materials Science & Technology, 2000, (05) : 529 - 530
  • [4] New dispersed phase of electrorheological fluids:: TiO2 coating graphite particles
    Xu, SJ
    Wang, B
    Men, SQ
    Lu, KQ
    JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY, 2000, 16 (05) : 529 - 530
  • [5] Synthesis and electrorheological effect of Cr doped TiO2 nanorods with nanocavities in silicone oil suspensions
    Almajdalawi, S.
    Pavlinek, V.
    Mrlik, M.
    Cheng, Q.
    Sedlacik, M.
    13TH INTERNATIONAL CONFERENCE ON ELECTRORHEOLOGICAL FLUIDS AND MAGNETORHEOLOGICAL SUSPENSIONS (ERMR2012), 2013, 412
  • [6] Effect of surface wettability of TiO2 particles on evaporation enhancement of silicone oil in the bulk of electrorheological suspensions
    Huang, Jing
    Wu, Xiaoyi
    Qiu, Zhaohui
    Xiong, Xiaomin
    AIP ADVANCES, 2018, 8 (10)
  • [7] Comparison of tribological and corrosion behaviors of Cp Ti coated with the TiO2/graphite coating and nitrided TiO2/graphite coating
    Tao, Xuewei
    Yao, Zhengjun
    Luo, Xixi
    JOURNAL OF ALLOYS AND COMPOUNDS, 2017, 718 : 126 - 133
  • [8] TiO2 based electrorheological fluid with high yield stress
    Shen, R
    Wang, XZ
    Wen, WJ
    Lu, KQ
    Electrorheological Fluids and Magnetorheological Suspensions (ERMR 2004), Proceedings, 2005, : 42 - 47
  • [9] The Normal Stress of TiO2 Electrorheological Fluid and Its Model Prediction
    Kim, Young Dae
    KOREAN CHEMICAL ENGINEERING RESEARCH, 2024, 62 (03): : 269 - 273
  • [10] Preparation and electrorheological property of alkaline earth metal compounds modified amorphous TiO2 electrorheological fluid
    Wu, Q
    Zhao, BY
    Chen, LS
    Hu, KA
    SCRIPTA MATERIALIA, 2004, 50 (05) : 635 - 639
12345