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Investigation on Ultraviolet Absorption Properties, Migration, and Catalytic Performances of Ferrocene‐Modified Hyper‐Branched Polyesters
Author(s) -
Xiao Fengjuan,
Feng Feifei,
Li Lanlan,
Zhang Dan
Publication year - 2013
Publication title -
propellants, explosives, pyrotechnics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.56
H-Index - 65
eISSN - 1521-4087
pISSN - 0721-3115
DOI - 10.1002/prep.201200126
Subject(s) - ferrocene , polyester , catalysis , ultraviolet , materials science , diffusion , isothermal process , absorption (acoustics) , polymer chemistry , polybutadiene , chemical engineering , chemistry , photochemistry , copolymer , organic chemistry , polymer , composite material , thermodynamics , electrode , physics , optoelectronics , electrochemistry , engineering
The ultraviolet absorption properties of a series of ferrocene‐modified hyper‐branched polyesters (HBPE‐Fcs) were analyzed by Ultraviolet/visible spectrometry. HBPE‐Fcs were used as burning rate catalyst components added into hydroxyl‐terminated polybutadiene (HTPB) based elastomers to investigate their migration behavior. Migration inhibition effects of HBPE‐Fcs in different aging conditions were analyzed. The diffusion coefficients (D) of the migration components were calculated according to Fick’s law of diffusion. The catalytic performances of HBPE‐Fcs for the thermal decomposition of cyclotrimethylenetrinitramine (RDX) were also investigated by non isothermal measurements using Kissinger method. The incorporation of ferrocenes into hyper‐branched polyesters (HBPEs) endows HBPEs with new ultraviolet absorption properties. The migration of HBPE‐Fc was minimized by grafting ferrocene on the hyper‐branched structures compared to that of simple ferrocene derivatives. HBPE‐Fcs present efficient catalytic effects on the thermal degradation of RDX; and, the catalytic reactions were characterized by decreased activation energies and increased rate constants.