Robust strong electrospun polyimide composite nanofibers from a ternary polyamic acid blend

Electrospun polyimide (PI) nanofibers with excellent mechanical and thermal properties are highly required in composites, filtration, battery separators, proton exchange membranes, dielectric materials, oil-water separation, and functional sponges, because of their high mechanical strength, high por...

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Bibliographic Details
Published in:Composites communications 2019-10, Vol.15, p.92-95
Main Authors: Yao, Kaiqing, Chen, Juan, Li, Ping, Duan, Gaigai, Hou, Haoqing
Format: Article
Language:English
Subjects:
Electrospun nanofibers
Mechanical property
Ternary polyimide blend
Thermal property
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Summary:Electrospun polyimide (PI) nanofibers with excellent mechanical and thermal properties are highly required in composites, filtration, battery separators, proton exchange membranes, dielectric materials, oil-water separation, and functional sponges, because of their high mechanical strength, high porosity, good chemical and heat-resistance. In this work, a ternary polyamic acid composite precursor was used to achieve this aim. The resultant ternary PI aligned electrospun composite nanofibers (PI-AENFs) were composed of rigid moiety, soft moiety and pyrimidine-containing moiety. When the molar ratio was 40/36/24, the ternary composite PI-AENFs showed a highest tensile strength of 962 MPa, and a high modulus of 9.17 GPa. Because of the existence pyrimidine rings, the ternary composite PI-AENFs showed a 5% and 10% weight loss temperatures in the range of 537–551 °C and 577–583 °C, respectively. In addition, dynamic mechanical analysis indicated that the ternary composite PI-AENFs possessed good compatibility with each moiety because of the only one peak in the range of 294–333 °C in the dynamic mechanical analysis curves, suggesting a high glass transition temperature for all the ternary composite PI-AENF samples. These PI-AENFs with outstanding mechanical and thermal properties will provide good opportunity for applications in the high-temperature fields, such as filtration, fiber reinforced composites, battery, and so on. •Polyimide (PI) composite nanofibers from electrospinning a ternary polyamic acid blend.•Highest strength of 962 MPa and modulus of 9.12 GPa, when the ternary molar ratio is 40/36/24.•T5% and T10% were in the range of 537–551 °C and 577–583 °C, respectively.•Only one glass transition temperature in the range of 294–333 °C.
ISSN:2452-2139
2452-2139
DOI:10.1016/j.coco.2019.07.001