A novel bifunctional comonomer 3-ammoniumcarboxylate-butenoic acid-methyl ester (ACBM) was synthesized tor preparing poly[acrylonitrile-co-(3-ammoniumcarboxylate-butenoic acid-methyl ester)] [P(AN-co-ACBM)] copo...A novel bifunctional comonomer 3-ammoniumcarboxylate-butenoic acid-methyl ester (ACBM) was synthesized tor preparing poly[acrylonitrile-co-(3-ammoniumcarboxylate-butenoic acid-methyl ester)] [P(AN-co-ACBM)] copolymer as a carbon fiber precursor. Differential scanning calorimetry results show that the P(AN-co-ACBM) exhibits a significantly improved stabilization performance compared with polyacrylonitrile (PAN), such as lower cyclization temperature and smaller rate of heat release, which is mainly attributed to the initiation of ACBM through an ionic cyclization mechanism. Simultaneously, the rheological analysis shows that P(AN-co-ACBM) possesses better spinnabilitv than PAN.展开更多
基金supported by the National Natural Science Foundation of China(Nos.51073031, 20971021 and 20974018)Doctoral Dissertation Innovation Project(No.BC201004)
文摘A novel bifunctional comonomer 3-ammoniumcarboxylate-butenoic acid-methyl ester (ACBM) was synthesized tor preparing poly[acrylonitrile-co-(3-ammoniumcarboxylate-butenoic acid-methyl ester)] [P(AN-co-ACBM)] copolymer as a carbon fiber precursor. Differential scanning calorimetry results show that the P(AN-co-ACBM) exhibits a significantly improved stabilization performance compared with polyacrylonitrile (PAN), such as lower cyclization temperature and smaller rate of heat release, which is mainly attributed to the initiation of ACBM through an ionic cyclization mechanism. Simultaneously, the rheological analysis shows that P(AN-co-ACBM) possesses better spinnabilitv than PAN.
