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Bio-inspired Graphene-enhanced Thermally Conductive Elastic Silicone Rubber as Drag Reduction Material#br#

Limei Tian1, E Jin1, Haoran Mei2, Qingpeng Ke1, Ziyuan Li1, Hailin Kui3   

  1. 1. Key Laboratory of Bionic Engineering (Ministry of Education), Jilin University, Changchun 130022, China
    2. Siping People's Government Office, Siping 136000, China
    3. Transportation College, Jilin University, Changchun 130022, China
  • 收稿日期:2016-06-12 修回日期:2016-12-12 出版日期:2017-01-10 发布日期:2017-01-12
  • 通讯作者: Hailin Kui E-mail:khl69@163.com
  • 作者简介:Limei Tian1, E Jin1, Haoran Mei2, Qingpeng Ke1, Ziyuan Li1, Hailin Kui3

Bio-inspired Graphene-enhanced Thermally Conductive Elastic Silicone Rubber as Drag Reduction Material#br#

Limei Tian1, E Jin1, Haoran Mei2, Qingpeng Ke1, Ziyuan Li1, Hailin Kui3   

  1. 1. Key Laboratory of Bionic Engineering (Ministry of Education), Jilin University, Changchun 130022, China
    2. Siping People's Government Office, Siping 136000, China
    3. Transportation College, Jilin University, Changchun 130022, China
  • Received:2016-06-12 Revised:2016-12-12 Online:2017-01-10 Published:2017-01-12
  • Contact: Hailin Kui E-mail:khl69@163.com
  • About author:Limei Tian1, E Jin1, Haoran Mei2, Qingpeng Ke1, Ziyuan Li1, Hailin Kui3

摘要: This study presented a graphene platelet/silicone rubber (GPL/SR) composite as a drag reduction material, inspired by the boundary heating drag reduction mechanism of dolphin skin. Graphene was added as a thermally conductive filler at weight fractions of 0.17 wt%, 0.33 wt% and 0.67 wt% to pristine silicone rubber (PSR). Tests of the thermal conductivity and tensile properties showed that the thermal conductivity of all three GPL/SR materials of 0.17 wt%, 0.33 wt% and 0.67 wt% graphene were 20%, 40% and 50% higher than that of the PSR, respectively, and the elastic modulus of the 0.17 wt% GPL/SR materials was lowest. Droplet velocity testing, which can reflect the drag reduction mechanism of the heating boundary controlled by the GPL/SR composite, was performed between 0.33 wt% GPL/SR, which typically exhibits good mechanical properties and thermal conductivity performance, and the PSR. The results showed that on the 0.33 wt% GPL/SR, the droplet velocity was higher and the rolling angle was lower, implying that the GPL/SR composite had a drag-reducing function. In terms of the drag reduction mechanism, the heat conductivity performance of the GPL/SR accelerated the heat transfer between the GPL/SR composite surface and the droplet. The forces between the molecules decreased and the droplet dynamic viscosity was reduced. The drag of a sliding water droplet was proportional to the dynamic viscosity, which resulted in drag reduction. The application of GPL/SR material to the control fluid medium should have important value for fluid machinery.

关键词: silicone rubber, elastic modulus, bio-inspiration, drag reduction, thermal conductivity

Abstract: This study presented a graphene platelet/silicone rubber (GPL/SR) composite as a drag reduction material, inspired by the boundary heating drag reduction mechanism of dolphin skin. Graphene was added as a thermally conductive filler at weight fractions of 0.17 wt%, 0.33 wt% and 0.67 wt% to pristine silicone rubber (PSR). Tests of the thermal conductivity and tensile properties showed that the thermal conductivity of all three GPL/SR materials of 0.17 wt%, 0.33 wt% and 0.67 wt% graphene were 20%, 40% and 50% higher than that of the PSR, respectively, and the elastic modulus of the 0.17 wt% GPL/SR materials was lowest. Droplet velocity testing, which can reflect the drag reduction mechanism of the heating boundary controlled by the GPL/SR composite, was performed between 0.33 wt% GPL/SR, which typically exhibits good mechanical properties and thermal conductivity performance, and the PSR. The results showed that on the 0.33 wt% GPL/SR, the droplet velocity was higher and the rolling angle was lower, implying that the GPL/SR composite had a drag-reducing function. In terms of the drag reduction mechanism, the heat conductivity performance of the GPL/SR accelerated the heat transfer between the GPL/SR composite surface and the droplet. The forces between the molecules decreased and the droplet dynamic viscosity was reduced. The drag of a sliding water droplet was proportional to the dynamic viscosity, which resulted in drag reduction. The application of GPL/SR material to the control fluid medium should have important value for fluid machinery.

Key words: silicone rubber, elastic modulus, bio-inspiration, drag reduction, thermal conductivity