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Phosphorus-Containing Flame-Retardant Benzocyclobutylene Composites with High Thermal Stability and Low CTE

Chao Guo, Qiuxia Peng, Hubo Wei, Jiaying Liu, Xinyu Hu, Juan Peng, Jiajun Ma, Xu Ye, Junxiao Yang

2023ACS Omega11 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide As a component of printed circuit substrate, copper clad laminate (CCL) needs to meet the performance requirements of heat resistance, flame retardancy, and low coefficient of thermal expansion (CTE), which, respectively, affects the stability, safety, and processability of terminal electronic products. In this paper, benzocyclobutylene (BCB)-functionalized phosphorus–oxygen flame retardant composites were prepared through introducing the BCB groups, and the performance was researched by thermogravimetric analysis, microcombustion calorimetry, and thermomechanical analysis. The research results show that these phosphorus oxide compounds containing BCB groups show good thermal stability and low total heat release (THR) after thermal curing, and the more BCB groups on the phosphorus oxide monomers, the better the thermal stability and flame retardancy of cured resins. The T d5 and THR of the composite (M3) are as high as 443 °C and 23.1 kJ/g, respectively. In addition, the CTE of M3 is as low as 16.71 ppm/°C. Introduction of BCB groups which can be crosslinked through heat to improve the thermal stability, flame retardancy, and reduced CTE of traditional organophosphorus flame retardant materials. These materials are expected to be good candidates for CCL substrates for electronic circuits.

Topics & Concepts

Fire retardantThermal stabilityMaterials scienceThermogravimetric analysisComposite materialThermal expansionCuring (chemistry)Composite numberOrganic chemistryChemistryFlame retardant materials and propertiesSynthesis and properties of polymersPolymer Nanocomposites and Properties
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