Aromatic nitrile resins with improved processability and thermal properties prepared by collaborative design of structure and blending strategy

[Display omitted] •A novel blend of aromatic nitrile-based resin named PAB was prepared.•PAB was prepared by collaborative design of structure and blending strategy.•PAB resin demonstrated low melting point and high curing activity.•The cured PAB resin exhibited excellent thermal and thermomechanical properties. The contradiction between processability and thermal properties has been limiting the development of high-performance thermoset resins, especially aromatic nitrile resins (AN). A new AN resin blend of 2-(3-(3,4-dicyanophenoxy)phenyl)-1H-imidazole-4,5dicarbonitrile (PNDCI) and 4-(4-aminophenoxy) phthalonitrile (APN) named PAB based on Brønsted acid-base blending strategy and introduction of asymmetric structure was designed and prepared in this paper. A series of characterizations showed that the PAB has not only excellent processability with a diminished melting point (118°C), wider processing window (90°C), and high curing reactivity, but that the cured PAB resins (C-PAB) also possessed high glass transition temperature (477°C), excellent long-term thermo-oxidative stability, thermomechanical properties and dimensional stability. The present design strategy of blending resins provides PAB as a good reference material for achieving a good balance between processability and high-temperature resistance.