Fabricating strong and tough aramid fibers by small addition of carbon nanotubes

Jiajun Luo; Yeye Wen; Xiangzheng Jia; Xudong Lei; Zhenfei Gao; Muqiang Jian; Zhihua Xiao; Lanying Li; Jiangwei Zhang; Tao Li; Hongliang Dong; Xianqian Wu; Enlai Gao; Kun Jiao; Jin Zhang

doi:10.1038/s41467-023-38701-4

Fabricating strong and tough aramid fibers by small addition of carbon nanotubes

Jiajun Luo, Yeye Wen, Xiangzheng Jia, Xudong Lei, Zhenfei Gao, Muqiang Jian, Zhihua Xiao, Lanying Li, Jiangwei Zhang, Tao Li, Hongliang Dong, Xianqian Wu^*, Enlai Gao^*, Kun Jiao^*, Jin Zhang^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

45 Citations (Scopus)

Abstract

Synthetic high-performance fibers present excellent mechanical properties and promising applications in the impact protection field. However, fabricating fibers with high strength and high toughness is challenging due to their intrinsic conflicts. Herein, we report a simultaneous improvement in strength, toughness, and modulus of heterocyclic aramid fibers by 26%, 66%, and 13%, respectively, via polymerizing a small amount (0.05 wt%) of short aminated single-walled carbon nanotubes (SWNTs), achieving a tensile strength of 6.44 ± 0.11 GPa, a toughness of 184.0 ± 11.4 MJ m⁻³, and a Young’s modulus of 141.7 ± 4.0 GPa. Mechanism analyses reveal that short aminated SWNTs improve the crystallinity and orientation degree by affecting the structures of heterocyclic aramid chains around SWNTs, and in situ polymerization increases the interfacial interaction therein to promote stress transfer and suppress strain localization. These two effects account for the simultaneous improvement in strength and toughness.

Original language	English
Article number	3019
Journal	Nature Communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-38701-4
Publication status	Published - Dec 2023
Externally published	Yes

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title = "Fabricating strong and tough aramid fibers by small addition of carbon nanotubes",

abstract = "Synthetic high-performance fibers present excellent mechanical properties and promising applications in the impact protection field. However, fabricating fibers with high strength and high toughness is challenging due to their intrinsic conflicts. Herein, we report a simultaneous improvement in strength, toughness, and modulus of heterocyclic aramid fibers by 26%, 66%, and 13%, respectively, via polymerizing a small amount (0.05 wt%) of short aminated single-walled carbon nanotubes (SWNTs), achieving a tensile strength of 6.44 ± 0.11 GPa, a toughness of 184.0 ± 11.4 MJ m−3, and a Young{\textquoteright}s modulus of 141.7 ± 4.0 GPa. Mechanism analyses reveal that short aminated SWNTs improve the crystallinity and orientation degree by affecting the structures of heterocyclic aramid chains around SWNTs, and in situ polymerization increases the interfacial interaction therein to promote stress transfer and suppress strain localization. These two effects account for the simultaneous improvement in strength and toughness.",

author = "Jiajun Luo and Yeye Wen and Xiangzheng Jia and Xudong Lei and Zhenfei Gao and Muqiang Jian and Zhihua Xiao and Lanying Li and Jiangwei Zhang and Tao Li and Hongliang Dong and Xianqian Wu and Enlai Gao and Kun Jiao and Jin Zhang",

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doi = "10.1038/s41467-023-38701-4",

language = "English",

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T1 - Fabricating strong and tough aramid fibers by small addition of carbon nanotubes

AU - Luo, Jiajun

AU - Wen, Yeye

AU - Jia, Xiangzheng

AU - Lei, Xudong

AU - Gao, Zhenfei

AU - Jian, Muqiang

AU - Xiao, Zhihua

AU - Li, Lanying

AU - Zhang, Jiangwei

AU - Li, Tao

AU - Dong, Hongliang

AU - Wu, Xianqian

AU - Gao, Enlai

AU - Jiao, Kun

AU - Zhang, Jin

PY - 2023/12

Y1 - 2023/12

N2 - Synthetic high-performance fibers present excellent mechanical properties and promising applications in the impact protection field. However, fabricating fibers with high strength and high toughness is challenging due to their intrinsic conflicts. Herein, we report a simultaneous improvement in strength, toughness, and modulus of heterocyclic aramid fibers by 26%, 66%, and 13%, respectively, via polymerizing a small amount (0.05 wt%) of short aminated single-walled carbon nanotubes (SWNTs), achieving a tensile strength of 6.44 ± 0.11 GPa, a toughness of 184.0 ± 11.4 MJ m−3, and a Young’s modulus of 141.7 ± 4.0 GPa. Mechanism analyses reveal that short aminated SWNTs improve the crystallinity and orientation degree by affecting the structures of heterocyclic aramid chains around SWNTs, and in situ polymerization increases the interfacial interaction therein to promote stress transfer and suppress strain localization. These two effects account for the simultaneous improvement in strength and toughness.

AB - Synthetic high-performance fibers present excellent mechanical properties and promising applications in the impact protection field. However, fabricating fibers with high strength and high toughness is challenging due to their intrinsic conflicts. Herein, we report a simultaneous improvement in strength, toughness, and modulus of heterocyclic aramid fibers by 26%, 66%, and 13%, respectively, via polymerizing a small amount (0.05 wt%) of short aminated single-walled carbon nanotubes (SWNTs), achieving a tensile strength of 6.44 ± 0.11 GPa, a toughness of 184.0 ± 11.4 MJ m−3, and a Young’s modulus of 141.7 ± 4.0 GPa. Mechanism analyses reveal that short aminated SWNTs improve the crystallinity and orientation degree by affecting the structures of heterocyclic aramid chains around SWNTs, and in situ polymerization increases the interfacial interaction therein to promote stress transfer and suppress strain localization. These two effects account for the simultaneous improvement in strength and toughness.

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JO - Nature Communications

JF - Nature Communications

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ER -

Fabricating strong and tough aramid fibers by small addition of carbon nanotubes

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