Polymer-Like Interfacial Engineering and Ignition Promotion in Boron-Titanium Nanocomposites for Scramjet Fuel Applications
발표자
사민기 (인하대학교)
연구책임자
윤창민 (인하대학교)
초록
내용
This study presents a dual strategy combining oxide-layer reduction and ignition promoter integration to enhance the performance of boron-based nanoadditives for scramjet fuels. Boron nanoparticles are functionalized with silane to form polymer-like interfacial networks, significantly improving dispersion stability in hydrocarbon fuels. Titanium nanoparticles (TNs) are physically mixed with silane-coated reduced boron nanoparticles (SRBNs), enabling rapid ignition without compromising particle integrity. The resulting SRBN-TN composites exhibits significantly improved combustion characteristics including high calorific value, reduced ignition delays, and more micro-explosions verified by the various analysis. Moreover, high-speed imaging camera validate that the synergistic effects of silane-based interfacial structuring and TN-induced ignition facilitated faster and cleaner combustion. This approach provides a scalable pathway for developing advanced energetic additives suitable for hypersonic fuel systems.
- 본 연구는 2025년 정부(방위사업청)의 재원으로 국방과학연구소의 지원을 받아 수행된 미래도전국방기술 연구개발사업임(No.915066201).