锂基脂

硼酸盐在锂基脂中的应用

Application of Borate in Lithium Grease

复合锂基脂的研究

Study of Compound Lithium Grease

表面修饰SiO2纳米微粒对锂基脂抗磨性能影响的研究

Effect of SiO_2 Nanoparticles as Additive on Antiwear and Extreme Pressure Properties of Lithium Grease

表面未修饰及修饰纳米SiO2对锂基脂摩擦学性能的影响

Effect of Unmodified and Surface-modified Nano SiO_2 as Additives on the Tribological Properties of Lithium Grease

结果表明：SiO2纳米微粒作为锂基脂添加剂具有良好的抗磨损性能，能够显著提高锂基脂的失效载荷。

Analytical results indicate that SiO_2 nanoparticles as additive can increase antiwear ability and load-carrying capacity of lithium grease .

结果表明：含有纳米Cu，Al，Al2O3，MgO，ZnO粒子的润滑脂添加剂能显著提高通用锂基脂的减摩性能，且对表面具有一定的修复能力。

The results show that the addition of nano-particles Al_2O_3 , Cu , Al , MgO , ZnO greatly with some can improve antifriction property of the base grease surface reconditioning ability .

在MRH-3高速环块摩擦磨损实验机上，研究了纳米微粒Cu，Al，Al2O3，MgO，ZnO加入到通用锂基脂中的摩擦学性能，并分析了纳米粒子作为润滑添加剂的减摩机理。

MRH-3 friction and wear tester were utilized to investigate tribological property of nano-Al_2O_3 , Cu , Al , MgO , ZnO particles as additive in lithium grease , and antifriction mechanism of nano-particles as lubricating additives were analyzed .

采用热分析方法对WS2高温锂基脂在高温下的状态进行了分析，得出WS2粉末在800℃高温下具有良好的稳定性和润滑性。

We analyze the situation of WS2 high temperature lubricating grease in the high temperature using the approach of heating analyze proving that WS2 powder is of good stability and lubricity under high temperature condition .

添加剂对复合锂基脂微动磨损的影响

Effect of Additives on Complex Lithium Grease Fretting Wear

硼化极压锂基脂特性分析

Analysis of Characteristics for Boronised Extreme Pressure Lithium-base Grease

二硫化钼2~锂基脂在中频机组上的应用

The Application of Mos_2 2 ~ # Li-Based GRease to Medium Frequency Unit

极压锂基脂稠度的探讨

Making an Approach to Density of EP Lithium-Base Grease

添加剂在复合锂基脂中的应用

Application of Some Additives on Lithium Complex Grease

提高高温复合锂基脂滴点的机理研究

A mechanism study of enhancing the drop point of high temperature lithium complex grease

长城牌00极压锂基脂的研制、性能特点及应用

' Great Wall ' 00 # EP Lithium Grease Property and Application of Polyether Lubricant

本文选用3通用锂基脂和7014号宽温航空润滑脂作为基础脂，选取纳米金刚石粉和纳米二氧化硅微粒作为添加剂，设计了14种配方。

In this paper , select li 3 # and grease 7014 as basis grease .

几种纳米微粒作为锂基脂添加剂对钢-钢摩擦副摩擦磨损性能的影响研究

Tribological Properties of a Steel-Steel Pair under the Lubrication of Lithium Grease Containing Various Nano-Particulates as Additives

较详细地探讨了复合锂基脂的组成、制备工艺及条件，采用二组分复合或三组分复合时对复合锂基脂性能的影响。

The composition , condition and technology of preparing lithium complex grease has been discussed in this paper .

为改善锂基脂极压抗磨性能使其适应于更为苛刻的工矿条件，合成了一系列单胺基双巯基三嗪衍生物，使用四球机考察了添加剂在锂基脂中的极压、抗磨、减摩性能。

To improve the extreme pressure and anti-wear properties of Li grease , a series of 2-amino-4,6-dimercapto-1,3,5-s-triazine derivatives were synthesized .

四氮唑衍生物添加剂对液体石蜡和锂基脂的极压抗磨性能的影响

The Effect of Several Tetrazole Derivatives as Additives on the Extreme-pressure and Antiwear Properties of Liquid Paraffin and a Lithium Grease

发现以酯类油与环烷基矿物油的混合油做基础油时，合成的锂基脂具有较好的噪声特性。

To find that mixture of naphthenic mineral oil and ester oil as base oil , the grease has a proper noise character .

本文从几个方面时稠度进行了探讨，基本上找出了一些与极压锂基脂稠度有关的因素，从而在生产上发挥了一定的作用。

This paper makes an approach to density of EP Lithium-base grease and finds several related factors , which play a role in production .

金属保护剂会影响复合锂基脂的其它性能，而极性聚合物不会对复合锂基脂的其他性能产生不良影响。

The metal protectant may influence other properties of complex lithium grease , but the polar polymer may not in-fluence ones of complex lithium grease .

制备的锂-钙基脂性能达到了极压锂基脂和汽车通用锂基脂的技术指标要求。

The lithium-calcium base grease prepared in this paper touches the requirement of the standard of extreme pressure lithium and multipurpose lithium base grease for automobile .

结果表明：含四氮唑官能团的衍生物添加剂能在一定程度上提高3锂基脂和液体石蜡的承载能力，并具有较好的抗磨性能。

As the results , the tetrazole derivatives as additives in liquid paraffin and / or commercial lithium grease help to increase the load carrying capacities and anti wear ability .

分别采用轴承振动（速度）法和轴承振动（加速度）法对合成的脂进行噪声值测试，并对合成的锂基脂各项理化指标进行测试。

The grease 's noise are measured by bearing vibrating ( velocity ) method and bearing vibrating ( acceleration ) method , and every physics and chemistry index are tested .

它的主要技术指标超过了日本极压锂基脂，使用寿命超过国产同名润滑脂的六倍以上，填补了国内轧辊轴承润滑脂的空白。

The main technical index of it exceeds the extreme pressure lithium grease from Japan , and the lifespan of it is six times longer than the same product in China .

各种润滑脂系列：车用脂、工业用脂、军用脂、特种用脂、锂基脂、枪炮脂等。

Fourth , a variety of grease Series : car grease , industrial grease , military lipid , special use of fat , Lithium Grease , grease guns and so on .

用费夫纳摩擦氧化试验机考察复合锂基润滑脂的微动磨损时，发现金属保护剂和极性聚合物可大幅度降低复合锂基脂的微动磨损。

It is discovered that metal protectant and polar polymer can reduce fretting wear of complex lithium grease largely by utilizing Fafnir friction oxidation tester investigates fretting wear of complex lithium grease .

结果发现，被测试材料的磨损机理在水润滑条件下为犁沟、剥落和塑性涂抹3种，在锂基脂＋3%MoS2润滑条件下主要是犁沟磨损。

Under water lubrication , the wear mechanism is ploughing , spalling and plastic deformation . Under lithium grease + 3 % MoS 2 lubrication , the main wear mechanism is ploughing .