石油炼制与化工 ›› 2026, Vol. 58 ›› Issue (7): 121-129.

• 油品与添加剂 • 上一篇    下一篇

复合钛基润滑脂的制备及其合成反应机理探究

陈靖,李义雅,刘欣阳,何懿峰,孙洪伟   

  1. 中石化石油化工科学研究院有限公司
  • 收稿日期:2026-02-12 修回日期:2026-04-01 出版日期:2026-07-12 发布日期:2026-06-29
  • 通讯作者: 陈靖 E-mail:chenjing.ripp@sinopec.com

PREPARATION OF COMPOSITE TITANIUM-BASED GREASEAND INVESTIGATION OF ITS SYNTHESIS REACTION MECHANISM

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  • Received:2026-02-12 Revised:2026-04-01 Online:2026-07-12 Published:2026-06-29

摘要: 采用控制变量法系统考察了原料种类、配比及制备工艺对复合钛基润滑脂体系成脂效果的影响,并结合分子模拟方法探究了其合成反应机理,从不同反应能垒与电荷转移层面揭示了加料顺序影响体系成脂效果的内在原理。结果表明,复合钛基润滑脂优选的稠化剂制备原料为钛酸四丁酯、硬脂酸、对苯二甲酸,其最佳摩尔比为1:1:1,两种酸组分的优选加料顺序为先加入对苯二甲酸后加入硬脂酸。优化的制备工艺为:先将钛酸四丁酯、对苯二甲酸与基础油混合,加热至85 ℃反应一定时间后加入硬脂酸,升温至190 ℃进行炼制,炼制完成后控制速率快速冷却至80 ℃左右,研磨成脂。分子模拟结果显示:钛酸四丁酯与对苯二甲酸和硬脂酸反应的能垒分别为111.89 kJ/mol和334.69 kJ/mol,说明钛酸四丁酯难以直接与硬脂酸反应;钛酸四丁酯与对苯二甲酸反应后,苯环的电子诱导效应使钛原子带的正电荷量显著增加,增强了其与硬脂酸反应的活性,同时二元酸的两个羧基有助于不同钛皂分子交联形成结构致密的三维网络骨架结构,增强了对基础油的吸附和束缚能力,提升了体系成脂效果。

关键词: 复合钛基润滑脂, 制备工艺, 加料顺序, 分子模拟, 反应机理

Abstract: Using the control variable method, the effect of raw material type, ratio and preparation process on the grease-forming effect of the composite titanium-based grease system was systematically investigated, and the synthesis reaction mechanism was explored by molecular simulation method, and the internal principle of the grease-forming effect of the feeding order was revealed from the different reaction energy barrier and charge transfer level.The results show that the preferred thickener preparation raw materials of titanium complex grease are tetrabutyl titanate, stearic acid and terephthalic acid, and the best molar ratio is 1:1:1. The preferred feeding order of the two acid components is to add terephthalic acid first and then stearic acid.The optimized preparation process is: first, tetrabutyl titanate, terephthalic acid and base oil are mixed, heated to 85 ℃reaction for a certain time after adding stearic acid, heated to 190 ℃ for refining, after the completion of refining control rate rapid cooling to about 80 ℃, grinding into grease.The results of molecular simulation show that the energy barriers for the reaction of tetrabutyl titanate with terephthalic acid and stearic acid are 111.89 kJ/mol and 334.69 kJ/mol, respectively, indicating that tetrabutyl titanate is difficult to react directly with stearic acid;After the reaction of tetrabutyl titanate and terephthalic acid, the electron-induced effect of benzene ring significantly increases the positive charge of titanium atoms and enhances the activity of the reaction with stearic acid. At the same time, the two carboxyl groups of dibasic acid contribute to the cross-linking of different titanium soap molecules to form a dense three-dimensional network skeleton structure, which enhances the adsorption and binding ability of base oil and improves the grease-forming effect of the system.

Key words: composite titanium-based grease, preparation process, feeding order, molecular simulation, reaction mechanism