Surface Free-Energy Analysis of Energetic Poly(glycidyl azide) Networks Prepared by Different Reactive Systems

摘要

Change in the surface free energy of poly(glycidyl azide) (PGA) networks prepared with different reactive systems was investigated using the van Oss-Good contact-angle evaluation methodology in order to estimate their wettability properties.The apolar Lifshitz-van der Waals (LW) component of the surface free energy of these energetic PGA networks was found to differ only in a minor amount and an average #gamma#_s~(LW) = 32.2 mJ m~(-2) was calculated.The network surface was found to be monopolar and basic(electron donor) in varying degrees in accordance with change of the network bulk structure,mainly due to the presence of oxygen atoms in the PGA chain.The set of the network containing only PGA and Desmodur N-100 components showed the highest #gamma#_s~(-) values compared to the other two sets.The main #gamma#_s~(-) contribution was found to come from the PGA polymer.A slight decrease of the #gamma#_s~(-) component was ween when the Desmodur N-100 component was substituted with hexamethylene diisocyanate (HMDI);however a large decrease was ween when Desmodur N-100 was substituted with the isophorone diisocyanate (IPDI) component.This large reduction in the surface having low surface tension and also due to decrease of the oxygen atoms belonging to the main chain of PGA at the surface,which resulted in the minimization of the network's basic surface free-energy component.