固体润滑剂

添加固体润滑剂的Al2O3/TiC陶瓷材料力学性能和显微结构

Mechanical properties and microstructure of Al_2O_3 / TiC ceramics with the addition of solid lubricants

MoS2固体润滑剂在解决设备维修疑难问题时的作用

The Function of MoS_2 Solid Lubricants for Solving the Difficult Problem of Repairing Equipments

MoS2固体润滑剂在轴承润滑中的应用

Application of MoS_2 Solid Lubricant in Bearing Lubrication

固体润滑剂MoS2溅射技术

Sputtering Technique of MoS_2 Solid Lubricant

有机固体润滑剂MCA的性能评价

Performance Evaluation of an Organic Solid Lubricant-MCA

固体润滑剂在Ni-Cr合金/Si3N4摩擦副界面的转移行为与摩擦学研究

Transferring Behavior and Tribological Properties of Solid Lubricants at the Interfaces of Ni-Cr alloy / Si_3N_4 Tribo-Couples

LCF轮缘固体润滑剂摩擦学性能的实验室及现场应用评价

Laboratory and Field Evaluation on Tribological Behaviors of LCF Flange Solid Lubricant

研究了固体润滑剂CaF2和BN对Al2O3/TiC陶瓷材料的力学性能和显微结构的影响。

The effects of the solid lubricants on mechanical properties and microstructure of Al2O3 / TiC were studied .

利用扫描电镜（SEM）对聚四氟乙烯基固体润滑剂摩擦表面及在45钢表面所形成的润滑转移膜形貌进行表征；

The polytetrafluoroethylene ( PTFE ) - based bonded solid lubricant coating and the surface of lubricating metastasis membrane forming on the surface of 45 # steel were detected using scanning electron microscope .

用XPS表征碳纤维表面、固体润滑剂摩擦前后表面、润滑转移膜表面的元素组成、价态变化；

The composition and valence state of elements in the surface of carbon fiber , solid lubricant before and after friction test and lubricant transfer film were characterized by XPS ;

系统地研究了工艺参数、添加剂、层状固体润滑剂添加量以及二次涂覆PTFE对膜层摩擦磨损性能的影响。

The effects of technology parameter , additive , adding amount of solid lubricate and coating PTFE on the friction and wear properties of ceramic coatings were detailedly studied .

用DSC-TG分析纯聚四氟乙烯树脂及固体润滑剂的热稳定性；

The thermal stability of pure PTFE and solid lubricant was analyzed by DSC-TG ;

对磨削工件表面层的X射线光电子谱分析还表明，涂层砂轮中的固体润滑剂不会对工件表面层产生污染。

It was also shown , through the analysis of ground workpiece surface layer by using of X - Ray Photoelectron Spectrometer , that the solid lubricant in the treated wheel does not cause pollution in the ground workpiece surface layer .

介绍了添加造粒MoS2固体润滑剂的黑色航空电刷的研制过程。

Preparation of black aviation brush by adding MoS 2 , a solid lubricant was introduced .

采用专用的台架模拟试验机对固体润滑剂镶嵌轴承套与钢轴摩擦副间的摩擦磨损性能进行测定；用莱次偏光显微镜（PM）测试固体润滑剂的硬度；

The frictional wear property of solid lubricant between embedded bearing sleeve and steel axle friction pair ring was tested by special simulate test machine , The hardness of solid lubricant was tested by PM ;

作者以聚四氟乙烯（PTFE）为固体润滑剂填料对GM型齿轮润滑成膜膏进行了改进，并且研制出了两种新的成膜膏系列产品。

This paper describes that the model GM lubricating film-forming pastes for gears was improved by using polytetrafluoroethylene ( PTFE ) as the lubricating filler , and two series of lubricating film-forming pastes were developed .

固体润滑剂WS2具有较低的摩擦系数和较好的耐磨性，但纯WS2薄膜在潮湿和富氧气氛中摩擦学性能较差。

Tungsten disulfide as a solid lubricant has the low friction coefficient and good wear resistance . But WS_2 film has poor tribological behavior in humid environment .

在Al2O3/TiC陶瓷刀具基体内加入固体润滑剂CaF2来改善其摩擦学特性，制备出Al2O3／TiC／CaF2自润滑陶瓷刀具。

CaF2 solid lubricants are added to Al2O3 / TiC ceramic tool matrix to improve its tribological behaviors . Al2O3 / TiC / CaF2 self-lubricating ceramic tools are produced successfully .

使用固体润滑剂复配及液体润滑剂NZ-HA型矿物油等使MC尼龙耐磨性能有进一步的改进；

By using multiple solid lubricant or NZ-HA type mineral oil etc. , the anti-friction of the MC nylon is further improved ;

采用X-光光电子能谱（XPS）仪测定了聚四氟乙烯基固体润滑剂烧结前后、在45钢表面摩擦试验前后，试样表面的元素组成及价态的变化。

The change of element integrant and valence state was measured using the X-ray photoelectron spectrum ( XPS ) when the PTFE-based bonded solid lubricant was agglutinated and the friction test of the 45 # steel was finished .

概述了固体润滑剂MoS2的性能特点及MoS2涂层的国内外研究现状；

The properties of molybdenum disulfide ( MoS_2 ) and the research state of MoS_2 coatings in home and abroad are summarized .

ZZS型固体润滑剂在回转水泥窑上的应用

The Application of ZZS Solid Lubricants to the Rotative Cement Kiln

用SRV多功能试验机研究了试验温度对几种固体润滑剂减摩性能的影响，并考察了固体润滑剂复合体系在不同试验温度时的减摩性能。

The effect of solid lube additives on the friction coefficient of the colza oil at different test temperatures was investigated by using SRV multifunctional testing system .

采用热压工艺制备了添加固体润滑剂MoS2、BN、CaF2的Al2O3/TiC陶瓷材料，测量了其力学性能和分析了其显微结构。

The Al_2O_3 / TiC ceramic materials with the addition of MoS_2 , BN , CaF_2 were produced by means of hot-pressing . The mechanical properties were measured and microstructure was analyzed .

结果表明，两步法制备的FeS薄膜为金属Fe与固体润滑剂FeS共同组成的复合固体润滑薄膜，与其基体结合紧密，具有适当的表面硬度；

Experiments were carried out on the friction-wear tester model DD-92 . Results showed that FeS film prepared by two-step method is a kind of composite solid lubrication film composed with metal Fe and lubricant FeS , with good bonding and proper surface hardness .

以Al2O3-NiO陶瓷粉末为原料，利用激光熔敷技术，在Al2O3陶瓷基材上制得由初生Al2O3树枝晶和枝晶间NiO薄膜状固体润滑剂组成的NiO／Al2O3陶瓷基自润滑耐磨复合涂层。

NiO / Al2O3 self-lubricating wear resistant ceramic matrix composite coatings with a microstructure consisting of Al2O3 primary dendrites and the inter-dendritic film-like NiO solid lubricant phase were fabricated on Al2O3 ceramic substrate by laser cladding with Al2O3-NiO ceramic powder blends .

固体润滑剂MoS2在200~400℃具有极其优异的减摩性能，其摩擦因数仅为0.05，但在500℃时摩擦因数非常高。

MoS_2 demonstrated excellent capability of friction reduction between 200 ~ 400 ℃ with friction coefficient as low as 0.05 , but it was ineffective when the temperature was over 500 ℃ .

DF-5铜基镶嵌自润滑轴承的铜合金基体、固体润滑剂形成的润滑膜在较高的温度下可承受较高的载荷。

The matrix metal of DF-5 bearing and the lubricating film formed by the solid lubricant can bear higher load under the condition of high temperature .

对厚约3μm的金属钼薄膜进行低温离子渗硫处理，得到了单质金属钼与固体润滑剂二硫化钼（MoS2）共存的复合固体润滑渗硫层。

The composite solid lubrication sulfuration layer between metal molybdenum and solid lubricant molybdenum disulfide ( MoS2 ) was obtained after the metal molybdenum layer with 3 μ m thick was treated by low temperature ion sulfuration .

考察了Ni-Cr-CaF2，Ni-Cr-PbO合金分别与Si3N4配副下的摩擦学性能，运用扫描电镜分析了固体润滑剂在Ni-Cr合金/Si3N4摩擦副界面的转移行为。

The tribological properties of Ni-Cr-CaF2 as well as Ni-Cr-PbO / Si3N4 tribo-couples were investigated . The transferring behavior of solid lubricants at the interface of Ni-Cr alloy / Si3N4 tribo-couples were analyzed by scanning electron microscopy .