In Situ Construction
of High-Thermal-Conductivity
and Negative-Permittivity Epoxy/Carbon Fiber@Carbon Composites with
a 3D Network by High-Temperature Chemical Vapor Deposition
posted on 2023-11-08, 14:40authored byTao Jiang, Kang Xu, Ying Wang, Lixue Xiang, Bo Tang, Shanshan Shi, Yifan Li, Wei Yu, Huaqing Xie, Xinfeng Wu, Wenge Li, Kai Sun, Runhua Fan, Jinhong Yu
Modern highly integrated microelectronic devices are
unable to
dissipate heat over time, which greatly affects the operating efficiency
and service life of electronic equipment. Constructing high-thermal-conductivity
composites with 3D network structures is a hot research topic. In
this article, carbon fiber felt (CFF) was prepared by airflow netting
forming technology and needle punching combined with stepped heat
treatment. Then, carbon-coated carbon fiber felt (C@CFF) with a three-dimensional
network structure was constructed in situ by high-temperature chemical
vapor deposition (CVD). Finally, high-temperature treatment was used
to improve the degree of crystallinity of C@CFF and further enhance
its graphitization. The epoxy (EP) composites were prepared by simple
vacuum infiltration–molding curing. The test results showed
that the in-plane thermal conductivity (K∥) and through-plane thermal conductivity (K⊥) of EP/C@CFF-2300 °C could reach up to 13.08
and 2.78 W/mK, respectively, where the deposited carbon content was
11.76 vol %. The in-plane thermal conductivity enhancement (TCE) of
EP/C@CFF-2300 °C was improved by 6440 and 808% compared to those
of pure EP and EP/CFF, respectively. The high-temperature treatment
greatly provides an improvement in thermal conductivity for the in-plane
and the through-plane. Infrared imaging showed excellent thermal management
properties of the prepared epoxy composites. EP/C@CFF-2300 °C
owned an in-plane AC conductivity of up to 0.035 S/cm at 10 kHz, and
Lorentz–Drude-type negative permittivity behaviors were observed
at the tested frequency region. The CFF thermally conductive composites
prepared by the above method have a broad application prospect in
the field of advanced thermal management and electromagnetics.