石墨烯作为一种纳米填料用于增强基础润滑脂的摩擦学性能和热导率。

Graphene as a nanofiller for enhancing the tribological properties and thermal conductivity of base grease.

作者信息

Fu Hui, Yan Guoping, Li Meng, Wang Hao, Chen Yapeng, Yan Chao, Lin Cheng-Te, Jiang Nan, Yu Jinhong

机构信息

College of Materials Science and Engineering, Wuhan Institute of Technology Wuhan 430073 Hubei China

Key Laboratory of Marine Materials and Related Technologies, Zhejiang Key Laboratory of Marine Materials and Protective Technologies, Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences Ningbo 315201 China

出版信息

RSC Adv. 2019 Dec 20;9(72):42481-42488. doi: 10.1039/c9ra09201c. eCollection 2019 Dec 18.

DOI:10.1039/c9ra09201c

PMID:35542863

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9076656/

Abstract

During mechanical processes, violent friction and wear between the friction contact surfaces not only causes wear to mechanical components, reducing the instrument life, but also causes friction heat, reducing the working efficiency of machines during operation. The addition of graphene-reinforced grease to the mechanical friction surface can effectively reduce the friction coefficient and improve the thermal conductivity. In this work, the tribological properties and thermal conductivity of base grease with graphene were investigated systematically. The tribological results showed that the grease with 2 wt% graphene had the best tribological properties among all these greases. The wear scar diameter and average friction coefficient of graphene grease with 2 wt% graphene reached 0.43 mm and 0.10 (the values for base grease are 0.50 mm and 0.118), respectively. In addition, the average friction coefficient and wear scar diameter increased proportionally with the increasing load and frequency. The thermal conductivity of the grease with 4 wt% graphene reached 0.28 W (m K), an increase of 55.5% in comparison with the base grease. It is proposed that the addition of graphene into the base grease effectively enhanced the tribological properties and thermal conductivity.

摘要

在机械加工过程中，摩擦接触表面之间剧烈的摩擦和磨损不仅会导致机械部件磨损，缩短仪器使用寿命，还会产生摩擦热，降低机器运行时的工作效率。在机械摩擦表面添加石墨烯增强润滑脂可有效降低摩擦系数并提高热导率。在本研究中，系统地研究了含石墨烯基础润滑脂的摩擦学性能和热导率。摩擦学结果表明，含2 wt%石墨烯的润滑脂在所有这些润滑脂中具有最佳的摩擦学性能。含2 wt%石墨烯的石墨烯润滑脂的磨损斑直径和平均摩擦系数分别达到0.43 mm和0.10（基础润滑脂的值分别为0.50 mm和0.118）。此外，平均摩擦系数和磨损斑直径随载荷和频率的增加而呈比例增加。含4 wt%石墨烯的润滑脂的热导率达到0.28 W/(m·K)，与基础润滑脂相比提高了55.5%。研究表明，向基础润滑脂中添加石墨烯可有效提高其摩擦学性能和热导率。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/81f6/9076656/f43d84990d0d/c9ra09201c-f1.jpg

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石墨烯作为一种纳米填料用于增强基础润滑脂的摩擦学性能和热导率。

Graphene as a nanofiller for enhancing the tribological properties and thermal conductivity of base grease.

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