Improved mechanical and tribological properties of epoxy resin with new hyperbranched polysiloxane grafted MXene/Ag hybrids

Zhou Lan; Zhengyan Chen; Maoyu Zhang; Wei Huang; Du Ding; Baoli Fan; Hongxia Yan; Yanling Jin; Zhenfeng Sun; Fang Ren; Penggang Ren

doi:10.1016/j.triboint.2025.110515

Improved mechanical and tribological properties of epoxy resin with new hyperbranched polysiloxane grafted MXene/Ag hybrids

Zhou Lan, Zhengyan Chen, Maoyu Zhang, Wei Huang, Du Ding, Baoli Fan, Hongxia Yan, Yanling Jin, Zhenfeng Sun, Fang Ren, Penggang Ren

化学与化工学院

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

In this study, different MXene/Ag hybrids were synthesized via an in-situ reduction method, followed by a “one-pot” strategy to design hydroxyl-terminated hyperbranched polysiloxane (HBPSi-OH) as a “bridging” structure to enhance the compatibility between MXene/Ag and epoxy resin (EP), forming the HMA/EP composite. Benefiting from the rigidity-flexibility synergistic effect between MXene/Ag and HBPSi-OH, 0.6 wt% HMA-2/EP composite exhibited the highest impact strength (35.3 kJ/m²) and flexural strength (146.3 MPa). Meanwhile, its average coefficient of friction (COF) and volume wear rate were significantly reduced by 32.8 % and 96.0 %, respectively, compared to pure EP resin. This work offers valuable insights for advancing high-performance polymer composites in the field of tribology.

源语言	英语
文章编号	110515
期刊	Tribology International
卷	204
DOI	https://doi.org/10.1016/j.triboint.2025.110515
出版状态	已出版 - 4月 2025

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10.1016/j.triboint.2025.110515

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title = "Improved mechanical and tribological properties of epoxy resin with new hyperbranched polysiloxane grafted MXene/Ag hybrids",

abstract = "In this study, different MXene/Ag hybrids were synthesized via an in-situ reduction method, followed by a “one-pot” strategy to design hydroxyl-terminated hyperbranched polysiloxane (HBPSi-OH) as a “bridging” structure to enhance the compatibility between MXene/Ag and epoxy resin (EP), forming the HMA/EP composite. Benefiting from the rigidity-flexibility synergistic effect between MXene/Ag and HBPSi-OH, 0.6 wt% HMA-2/EP composite exhibited the highest impact strength (35.3 kJ/m2) and flexural strength (146.3 MPa). Meanwhile, its average coefficient of friction (COF) and volume wear rate were significantly reduced by 32.8 % and 96.0 %, respectively, compared to pure EP resin. This work offers valuable insights for advancing high-performance polymer composites in the field of tribology.",

keywords = "Epoxy resin, Hyperbranched polysiloxane, Mechanical properties, MXene/Ag, Tribological properties",

author = "Zhou Lan and Zhengyan Chen and Maoyu Zhang and Wei Huang and Du Ding and Baoli Fan and Hongxia Yan and Yanling Jin and Zhenfeng Sun and Fang Ren and Penggang Ren",

note = "Publisher Copyright: {\textcopyright} 2025",

year = "2025",

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doi = "10.1016/j.triboint.2025.110515",

language = "英语",

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AU - Lan, Zhou

AU - Chen, Zhengyan

AU - Zhang, Maoyu

AU - Huang, Wei

AU - Ding, Du

AU - Fan, Baoli

AU - Yan, Hongxia

AU - Jin, Yanling

AU - Sun, Zhenfeng

AU - Ren, Fang

AU - Ren, Penggang

PY - 2025/4

Y1 - 2025/4

N2 - In this study, different MXene/Ag hybrids were synthesized via an in-situ reduction method, followed by a “one-pot” strategy to design hydroxyl-terminated hyperbranched polysiloxane (HBPSi-OH) as a “bridging” structure to enhance the compatibility between MXene/Ag and epoxy resin (EP), forming the HMA/EP composite. Benefiting from the rigidity-flexibility synergistic effect between MXene/Ag and HBPSi-OH, 0.6 wt% HMA-2/EP composite exhibited the highest impact strength (35.3 kJ/m2) and flexural strength (146.3 MPa). Meanwhile, its average coefficient of friction (COF) and volume wear rate were significantly reduced by 32.8 % and 96.0 %, respectively, compared to pure EP resin. This work offers valuable insights for advancing high-performance polymer composites in the field of tribology.

AB - In this study, different MXene/Ag hybrids were synthesized via an in-situ reduction method, followed by a “one-pot” strategy to design hydroxyl-terminated hyperbranched polysiloxane (HBPSi-OH) as a “bridging” structure to enhance the compatibility between MXene/Ag and epoxy resin (EP), forming the HMA/EP composite. Benefiting from the rigidity-flexibility synergistic effect between MXene/Ag and HBPSi-OH, 0.6 wt% HMA-2/EP composite exhibited the highest impact strength (35.3 kJ/m2) and flexural strength (146.3 MPa). Meanwhile, its average coefficient of friction (COF) and volume wear rate were significantly reduced by 32.8 % and 96.0 %, respectively, compared to pure EP resin. This work offers valuable insights for advancing high-performance polymer composites in the field of tribology.

KW - Epoxy resin

KW - Hyperbranched polysiloxane

KW - Mechanical properties

KW - MXene/Ag

KW - Tribological properties

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DO - 10.1016/j.triboint.2025.110515

M3 - 文章

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SN - 0301-679X

VL - 204

JO - Tribology International

JF - Tribology International

M1 - 110515

ER -

Improved mechanical and tribological properties of epoxy resin with new hyperbranched polysiloxane grafted MXene/Ag hybrids

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