Improved thermal conductivity of poly(p-phenylene sulfide)/glass fiber composites via addition of polysiloxide-coated aggregated boron oxide and silane-treated graphene oxide

Poly (p-phenylene sulfide) (PPS) is a material with strong mechanical properties and chemical stability. How-ever, PPS has a low thermal conductivity of 0.18 W/m center dot K, which limits its applications in fields requiring heat dissipation properties. In this work, to improve the mechanical and thermal properties, aggregated boron nitride (ABN) and graphene oxide (GO) fillers were added into the PPS/glass fiber (PPS/GF) system with proper treatment. ABN was covered with amine-functional polysiloxide and heat-treated to withstand and maintain the morphology after the composite molding process. Additionally, GO underwent 3-mercaptopropyl trimethox-ysilane (MPTMS) treatment (MGO) to enhance the interface adhesion between the glass fiber filler and PPS matrix. By adding PSZABN and MGO into the PPS/GF system, the mechanical properties, storage modulus, and tensile strength were improved, and the thermal conductivity of the PPS/GF@20PSZABN@10MGO composite was 1.18 W/m center dot K, which is 6.55 times improved than that of pristine PPS.