Enhancing wear resistance and mechanical property of epoxy coating via “roller wheel” liquid metal-MXene

Shuxin Zheng; Yuxiang Nie; Zhangzhong Wang; Xin Feng; Jiahua Zhu; Xiaohua Lu; Liwen Mu

doi:10.1002/app.55511

Enhancing wear resistance and mechanical property of epoxy coating via “roller wheel” liquid metal-MXene

Shuxin Zheng, Yuxiang Nie, Zhangzhong Wang, Xin Feng, Jiahua Zhu, Xiaohua Lu, Liwen Mu

COLLEGE OF CHEMICAL ENGINEERING

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

1 Scopus citations

Abstract

This work presents a design of a unique “roller wheel” structure combining rigid MXene and flexible liquid metal (LM), aiming to construct an epoxy composite coating with simultaneous advanced mechanical strength and lubrication properties. The antiwear property of the epoxy composites is improved by 72.8% when the LM is 0.5 wt% and MXene is 0.03 wt%. The incorporation of LM-MXene improved the mechanical properties of the epoxy composite coating, resulting in an approximately 136.6% increase in elastic modulus. The unique “roller wheel” structure provides additional mechanical support and leads to lower adhesion between the MXene layers and LM. As a result, LM reduces the stripping and sliding of the interface between MXene layers during the friction process, further enhancing the lubrication performance of the epoxy composite coating.

Original language	English
Article number	e55511
Journal	Journal of Applied Polymer Science
Volume	141
Issue number	24
DOIs	https://doi.org/10.1002/app.55511
State	Published - 20 Jun 2024

Keywords

LM-MXene
interface design
mechanical property
wear resistance

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10.1002/app.55511

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title = "Enhancing wear resistance and mechanical property of epoxy coating via “roller wheel” liquid metal-MXene",

abstract = "This work presents a design of a unique “roller wheel” structure combining rigid MXene and flexible liquid metal (LM), aiming to construct an epoxy composite coating with simultaneous advanced mechanical strength and lubrication properties. The antiwear property of the epoxy composites is improved by 72.8% when the LM is 0.5 wt% and MXene is 0.03 wt%. The incorporation of LM-MXene improved the mechanical properties of the epoxy composite coating, resulting in an approximately 136.6% increase in elastic modulus. The unique “roller wheel” structure provides additional mechanical support and leads to lower adhesion between the MXene layers and LM. As a result, LM reduces the stripping and sliding of the interface between MXene layers during the friction process, further enhancing the lubrication performance of the epoxy composite coating.",

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AU - Zheng, Shuxin

AU - Nie, Yuxiang

AU - Wang, Zhangzhong

AU - Feng, Xin

AU - Zhu, Jiahua

AU - Lu, Xiaohua

AU - Mu, Liwen

PY - 2024/6/20

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N2 - This work presents a design of a unique “roller wheel” structure combining rigid MXene and flexible liquid metal (LM), aiming to construct an epoxy composite coating with simultaneous advanced mechanical strength and lubrication properties. The antiwear property of the epoxy composites is improved by 72.8% when the LM is 0.5 wt% and MXene is 0.03 wt%. The incorporation of LM-MXene improved the mechanical properties of the epoxy composite coating, resulting in an approximately 136.6% increase in elastic modulus. The unique “roller wheel” structure provides additional mechanical support and leads to lower adhesion between the MXene layers and LM. As a result, LM reduces the stripping and sliding of the interface between MXene layers during the friction process, further enhancing the lubrication performance of the epoxy composite coating.

AB - This work presents a design of a unique “roller wheel” structure combining rigid MXene and flexible liquid metal (LM), aiming to construct an epoxy composite coating with simultaneous advanced mechanical strength and lubrication properties. The antiwear property of the epoxy composites is improved by 72.8% when the LM is 0.5 wt% and MXene is 0.03 wt%. The incorporation of LM-MXene improved the mechanical properties of the epoxy composite coating, resulting in an approximately 136.6% increase in elastic modulus. The unique “roller wheel” structure provides additional mechanical support and leads to lower adhesion between the MXene layers and LM. As a result, LM reduces the stripping and sliding of the interface between MXene layers during the friction process, further enhancing the lubrication performance of the epoxy composite coating.

KW - LM-MXene

KW - interface design

KW - mechanical property

KW - wear resistance

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Enhancing wear resistance and mechanical property of epoxy coating via “roller wheel” liquid metal-MXene

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Keywords

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