Litcius/Paper detail

Synergistic improvement of toughness and thermal properties of phthalonitrile resin based on the multiple curing mechanism of amino-carborane

Zichun Ding, Jianjian Jiao, Yuhang Wang, Runze Liu, Qing Wang, Jianing Guo, Siying Wang, Lishuai Zong, Xigao Jian, Jinyan Wang

2025Composites Part A Applied Science and Manufacturing7 citationsDOIOpen Access PDF

Abstract

Ultra heat-resistant phthalonitrile resin has faced serious challenges of the trade-off between temperature resistance and toughness and seriously affects its application in the field of temperature resistant structural composites. In this work, a kind of oligo (aryl ethers) containing phenyl-s-triazine and pendent amino group (AFT-Ph/PAFT-Ph) were first selected as modifier co-cured with phthalonitrile prepolymers containing a carborane (CEPN) to achieve synergistic improvement in toughness and heat resistance performance. The flexural and impact strengths of optimized composites reach 278.6 MPa and 58.4 kJ/m 2 , which are increased by 92.7 % and 1091.8 % compared to the blank contrast. The glass transition temperature ( T g ) remained consistent with that of the blank control group, both exceeding 550 ℃. Furthermore, the T d5% –N 2 shows a marginal increase from 706 ℃ in the blank contrast to 713 ℃ in the modified material. Simultaneously conducting research on the mechanism of collaborative improvement mentioned above.

Topics & Concepts

PhthalonitrileMaterials scienceCuring (chemistry)ToughnessComposite materialCarboraneThermalThermosetting polymerOrganic chemistryChemistryNanotechnologyMeteorologyPhysicsPhthalocyanineEpoxy Resin Curing ProcessesSynthesis and properties of polymersAdvanced materials and composites