4.6 Article

Preparation of thermally conductive flexible liquid silicone rubber composites by magnetic field-induced self-assembly of Fe3O4@C

期刊

JOURNAL OF APPLIED POLYMER SCIENCE
卷 139, 期 32, 页码 -

出版社

WILEY
DOI: 10.1002/app.52746

关键词

magnetism and magnetic properties; rubber; thermal conductivity

资金

  1. Scientific Research Project of Introducing Talents of Guizhou University [[2020] 53]
  2. Science and Technology Department of Guizhou Province [[2019] 2030]

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Efficient heat dissipation is crucial for electronic devices, and this study successfully prepared magnetic graphite/liquid silicone rubber composites with high thermal conductivity through dopamine coating and magnetic field orientation.
Efficient heat dissipation is very crucial for the performance, service life, and reliability of modern electronic devices. It is very challenging to improve heat dissipation efficiency through innovative material structure design. Therefore, in the work, dopamine (PDA) is used to coat the surface of graphite (C) with its excellent surface coating modification ability, so that the C surface has oxygen-containing groups to change its electronegativity, and Fe2+ and Fe3+ in the solution are attracted to the surface of C, and then in situ redox reaction occurs on the surface of C to generate magnetic graphite (Fe3O4@C). Fe3O4@C is uniformly dispersed into liquid silicone rubber (LSR) by solution blending, and Fe3O4@C performs integral directional filling in the LSR under the action of magnetic field (B = 140 mT), thus preparing Fe3O4@C/LSR composites. Through magnetic field orientation, the thermal conductivity of Fe3O4@C/LSR composites reach 1.25 W/m center dot K when the content of Fe3O4@C is 100 phr, which is 410% higher than that of pure LSR (0.2447 W/m center dot K). Infrared thermal imaging test shows that Fe3O4@C/LSR composites has good heat dissipation performance, Fe3O4@C/LSR composites have shown great potential in terms of flexibility and high thermal conductivity.

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