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Abstract
The direct preparation of various aromatic poly(urea‐imide)s (5a1 –5b4 ) from N‐[3,5‐bis(trimellitimido)phenyl]phthalimide (1) using diphenylphosphoryl azide (DPPA) was investigated. The polymers were obtained by the conversion of imide ring‐containing diacid 1 to corresponding di(carbonyl azide) 2 with DPPA and then to diisocyanate 3 through the Curtius rearrangement of compound 2. This was followed by polyaddition of 3 with two aromatic diamines (4a and 4b). In order to compensate the diisocyanate shortage against the diamines, some excess amounts of the initial triimide‐dicarboxylic acid 1 were used. The molecular weights of the resulting poly(urea‐imide)s were evaluated viscometrically. The poly(urea‐imide)s exhibited an excellent solubility in a variety of polar solvents. The crystallinity nature of the polymers was estimated by means of WXRD. The glass transition temperatures and the 10% wt loss temperatures of the polymers 5a3 and 5b3 were determined by DSC and TGA/DTG methods in nitrogen atmosphere, respectively. The transparent films of the resulting polymers were also prepared by casting the solution.
Acknowledgement
The authors wish to express their gratitude to the Research Council of Damghan University of Basic Sciences for financial support of this research.