Song Ma, Wenqian Du and Yunjun Luo* Simulation of GAP/HTPB
530 S. Ma et al.: Simulation of GAP/HTPB phase behaviors validate the feasibility of this method (introducing GAP and A3 into HTPB). Therefore, it is necessary to investi- gate the miscibility of the systems in which the energetic polymer and plasticizer are introduced.
Simulation of GAP/HTPB phase behaviors in plasticizers and
Dissipative particle dynamics and molecular simulations were carried out to investigate the phase behaviors of glycidyl azide polymer (GAP)/hydroxyl-terminated polybutadiene (HTPB) polymer blend in dioctyl sebacate (DOS), and mixture of DOS and bis (2,2-dinitropropyl)formal/acetal (A3), respectively.
Simulation of GAP/HTPB phase behaviors in plasticizers and
The rheology of GAP/HTPB propellant slurry plasticized by A3/DOS was studied. First, single-phase aggregations of GAP and HTPB appear slightly in A3/DOS whereas it is conspicuous in DOS,...
Simulation of GAP/HTPB phase behaviors in plasticizers and
Finally, integral GAP/HTPB-based propellant can be obtained using A3/DOS as plasticizers. Abstract Dissipative particle dynamics and molecular simulations were carried out to investigate the phase behaviors of glycidyl azide polymer (GAP)/hydroxyl-terminated polybutadiene (HTPB) polymer blend in dioctyl sebacate (DOS), and mixture of DOS and
Compatibility of Glycidyl Azide Polymer with Hydroxyl
Simulation of GAP/HTPB phase behaviors in plasticizers and its application in composite solid propellant 2 June 2018 | e-Polymers, Vol. 18, No. 6 Effects of ester-terminated glycidyl azide polymer on the thermal stability and decomposition of GAP by TG-DSC-MS-FTIR and VST
