The Waterborne Symposium 2025

Abstract

Lightweight, mechanically robust materials capable of high thermal transport and minimal electrical interference are critical for the protection of sensitive high power electrical systems. Polymer composites are an excellent materials solution for protection of such electrical components however their development is met with multiple challenges. For example, polymer-particle interactions, processability, thermal properties, innate particle properties, viscosity, dielectric properties and composite morphology are only a few considerations for material screening. Boron nitride (BN), a thermally conductive low-density ceramic, is a reasonable additive to develop polymer composite solutions due to its inability to conduct electrons and minimal impact on component weight. On the other hand, the polymer carrier material for such ceramic particles is equally important in the development of novel functional materials. The design versatility of benzoxazine (BOX) monomers and polymer precursors offer endless opportunities to tune matrix properties and particle-polymer interactions as well as processing methods. Herein we will discuss key considerations for optimal composite performance, current challenges and limitations toward the development of new materials to fulfill an industry need through the lens of BOX/BN polymer matrix composites.