Synthesis of a Novel Multifunctional Ionic Liquid Based on Benzotriazole for Enhanced Tribological Performance of Steel Interfaces

IF 2.9 3区工程技术 Q2 ENGINEERING, CHEMICAL

Tribology Letters Pub Date : 2025-04-23 DOI:10.1007/s11249-025-02000-4

Chaoyang Zhang, Xingwei Wang, Yuchen Sun, Shuang Sun, Chen Zhao, Yu Liu, Shuangshuang Yang, Qiangliang Yu, Mohamed Kamal Ahmed Ali

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引用次数: 0

Abstract

A novel oil-soluble ionic liquid (ILs), benzotriazole-functionalized quaternary phosphonium salt (BTAP₈₈₈DOSS), has been synthesized. This proposed oil formulation incorporates the BTAP₈₈₈DOSS additive into poly-α-olefin (PAO10) oil. The tribological, corrosion, and thermal properties were investigated. The wear patterns and tribofilm formation mechanisms for the formulated lubricant are discussed using advanced technologies (SEM, XPS, and TOF–SIMS). Moreover, the molecular models of cations and anions were generated and optimized using density functional theory (DFT). Notably, the oil prepared with 0.5 wt% BTAP₈₈₈DOSS additive exhibited superior lubrication performance, minimizing the friction coefficient by 34–36% and disc wear volume by 80–85% compared with the baseline lubricant. This reinforcement is attributed to the additive’s ability to form a lubricating layer with low shear forces, as demonstrated by the simulation results. Ultimately, our results will support the advancement of eco-friendly ILs as multifunctional oil additives to reduce power losses caused by friction in various mechanical systems.

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基于苯并三唑的新型多功能离子液体的合成以提高钢界面的摩擦学性能

合成了一种新型油溶性离子液体——苯并三唑功能化季磷盐（BTAP888DOSS）。该油配方将BTAP888DOSS添加剂加入聚α-烯烃（PAO10）油中。研究了材料的摩擦学、腐蚀和热性能。使用先进的技术（SEM， XPS和TOF-SIMS）讨论了配方润滑剂的磨损模式和摩擦膜形成机制。此外，利用密度泛函理论（DFT）建立并优化了阳离子和阴离子的分子模型。值得注意的是，添加0.5% wt% BTAP888DOSS添加剂的润滑油表现出优异的润滑性能，与基准润滑油相比，摩擦系数降低34-36%，摩擦盘磨损量降低80-85%。正如模拟结果所显示的那样，这种增强归因于添加剂在低剪切力下形成润滑层的能力。最终，我们的研究结果将支持环保il作为多功能油添加剂的发展，以减少各种机械系统中摩擦引起的功率损失。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Tribology Letters 工程技术-工程：化工

CiteScore

5.30

自引率

9.40%

发文量

116

审稿时长

2.5 months

期刊介绍： Tribology Letters is devoted to the development of the science of tribology and its applications, particularly focusing on publishing high-quality papers at the forefront of tribological science and that address the fundamentals of friction, lubrication, wear, or adhesion. The journal facilitates communication and exchange of seminal ideas among thousands of practitioners who are engaged worldwide in the pursuit of tribology-based science and technology.