Dual-mode response behavior of a graphene oxide implanted energetic system under different thermal stimuli
Jie Liu, Tao Yan, Yaru Li, Hui Ren, Qian Wang, Fayang Guan, Qingjie Jiao
Abstract
. In a closed-vessel test, as the GO content increased, the pressure peak and maximum slopes of pressure-time curves increased. Under a thermal stimulus, GO was reduced to RGO, and when the stimulation was small and slow, this helped with heat dissipation and improved safety. If the stimulation was enough to ignite the energetic materials, GO contributed to the rapid attainment of the reaction temperature and sped up the reaction process.
Topics & Concepts
GrapheneOxideDual modeMaterials scienceThermalDual (grammatical number)Mode (computer interface)NanotechnologyComputer sciencePhysicsHuman–computer interactionMetallurgyAerospace engineeringEngineeringThermodynamicsArtLiteratureGraphene research and applicationsEnergetic Materials and CombustionAdvanced Battery Technologies Research