Journal
POLYMERS
Volume 13, Issue 18, Pages -Publisher
MDPI
DOI: 10.3390/polym13183111
Keywords
benzoxazines cure; phosphazenes; flame retardant; catalysis; thermal analysis
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Funding
- Mendeleev University of Chemical Technology [-2020-029]
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This study investigated the influence of phosphazene modifiers with different substituents on the curing process, thermal properties, and flammability of benzoxazine resin. It was found that the addition of these modifiers decreased the glass transition temperature and thermal stability of the polymers, while improving flame resistance. The catalytic activity of the phosphazene compounds varied depending on the substituents, with m-toluidine substitutions showing the lowest activity.
This work is devoted to the influence of phosphazene modifiers with different substituents on the curing process, thermal properties and flammability of benzoxazine resin. Novel catalysts with m-toluidine substituents were introduced. The catalytic activity of studied phosphazene compounds decreased in the row: hexachlorocyclotriphosphazene (HCP) > tetra m-toluidine substituted phosphazene PN-mt (4) > hexa m-toluidine substituted phosphazene PN-mt (6) > hexaphenoxycyclotriphosphazene (HPP), where HPP is totally inactive. Two types of catalysis: basic and acid were proposed. A brief study of resulting properties of polybenzoxazines was presented. The addition of any studied modifier caused the decrease of glass transition temperature and thermal stability of polymers. The morphology of cured compositions was characterized by matrix-dispersion phase structure. All phosphazene containing polybenzoxazines demonstrated the improved flame resistance.
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