Abstract
ABSTRACTAliphatic ternary benzoxazine (Bz) based from triamine with long chain, as well as flexible binary Bz, was successfully synthesized, which was named as BzT and BzD respectively. The corresponding polybenzoxazines (PBz) rooting from BzT and BzD (PBzT and PBzD) respectively and their copolybenzoxazines (co-PBzs) were obtained to improve the mechanical and thermal properties via chemical cross-linking. The onset polymerization temperatures of the copolymers decreased from 189.1°C to 143.9°C, and the exothermic peak temperature reduced significantly from 232.5°C to 217°C as the content of BzT increased from 0 wt% to 100 wt% in the copolymers. The value of char yield at 800°C increased gradually from 21.5 wt% for PBzD to 28.7 wt% for PBzT. The increasing crosslink density resulted higher glass transition temperatures and improved storage moduli in glassy region because of the introduction of BzT.
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