发表于2024-12-28
《摩擦学原理(第5版)》反映了摩擦学研究进展以及作者和同事们从事该领域研究的成果,系统地阐述摩擦学的基本原理与应用,全面反映现代摩擦学的研究状况和发展趋势。 全书共22章,由润滑理论与润滑设计、摩擦磨损机理与控制、应用摩擦学等三部分组成。除摩擦学传统内容外,还论述了摩擦学与相关学科交叉而形成的研究领域。本书针对工程实际中各种摩擦学现象,着重阐述在摩擦过程中的变化规律和特征,进而介绍基本理论和分析计算方法以及实验测试技术,并说明它们在工程中的实际应用。 《摩擦学原理(第5版)》可作为机械设计与理论专业的研究生教材和高等院校机械工程各类专业师生的教学参考书,亦可供从事机械设计和研究的工程技术人员参考。
Part OneLubrication Theory and Lubrication Design
Chapter 1Properties of lubrication film
1.1Lubrication states
1.2Density of lubricants
1.3Viscosity of fluids
1.4Non�睳ewtonian properties and rheological model
1.5Lubricant wettability
1.6Measurement and exchange of viscosity
References
Chapter 2Basic theory of hydrodynamic lubrication
2.1Reynolds equation
2.2Hydrodynamic lubrication
2.3Basic elasticity theory of contact problems
2.4Elastohydrodynamic lubrication (inlet analysis)
2.5Grease lubrication
2.6Elastohydrodynamic lubrication state diagrams
References
Chapter 3Numerical methods of lubrication calculation
3.1Numerical solutions of Reynolds equation
3.2Numerical solutions of energy equation
3.3Numerical solutions of elastohydrodynamic lubrication
3.4Multi�瞘rid level method used in lubrication problems
References
Chapter 4Lubrication design of typical mechanical elements
4.1Slider and thrust bearing
4.2Journal bearing
4.3Hydrostatic bearing
4.4Squeezing bearing
4.5Dynamic bearing
4.6Gas bearing
4.7Rolling contaet bearing
4.8Gear lubrication
4.9Cam lubrication
References
Chapter 5Lubrication of special fluid medias
5.1Magneto fluid lubrication
5.2Micro�瞤olar fluid lubrication
5.3Liquid crystal lubrication
5.4Double electric layer effect in water thin film lubrication
5.5Emulsion lubrication
References
Chapter 6Transformation of lubrication states and nano thin film lubrication
6.1Transformation of lubrication states
6.2Nano film lubrication of liquid
6.3Numerical analysis of thin film lubrication
6.4Nano film lubrication of gas
References
Chapter 7Boundary lubrication and additives
7.1Types of boundary lubrication
7.2Theory of boundary lubrication
7.3Additives of lubricant
References
Chapter 8Lubrication failure and mixed lubrication
8.1Influence of roughness and material visco�瞖lastic property on lubrication
failure
8.2Influence of fluid limiting shear stress on lubrication failure
8.3Influence of temperature on lubrication failure
8.4Mixed lubrication state
References
Part TwoFriction and Wear Mechanisms and Friction Control
Chapter 9Surface topography and surface contacts
9.1Parameters of surface topography
9.2Statistic parameters of surface topography
9.3Rough surface contacts
References
Chapter 10Soliding friction and its applications
10.1Basic characteristics of friction
10.2Macro friction theory
10.3Micro friction theory
10.4Sliding friction
10.5Other friction problems and friction control
References
Chapter 11Fretting friction and its applications
11.1Development and classification of fretting tribology
11.2Theory of fretting friction
11.3Approches of improving fretting performance
11.4Researches on the applications of fretting tribology
References
Chapter 12Rolling friction and its applications
12.1Basic theories of rolling friction
12.2Wheel�瞨ail rolling friction and thermal analysis
12.3Application of rolling friction theory in design of lunar rover
vehicle
References
Chapter 13Wear characteristics and mechanisms
13.1Wear classification
13.2Abrasive wear
13.3Adhesive wear
13.4Fatigue wear
13.5Corrosion wear
References
Chapter 14Macro wear laws and wear theories
14.1Materials of friction pair
14.2Curves of wear processes
14.3Surface quality and wear
14.4Adhesive wear theory
14.5Energy wear theory
14.6Spalling theory and fatigue wear theory
14.7Wear calculation
References
Chapter 15Anti�瞱ear designs and surface coatings
15.1Choice of lubricants and additives
15.2Principles of friction pair material choice
15.3Surface coatings
15.4Measurement of coating properties
References
Chapter 16Tribological experiments and state detection
16.1Methods and equipments of tribological experiments
16.2Measurement of wear
16.3State analysis of friction surface
16.4Detection of wear states
16.5Analysis of wear failure
References
Part ThreeApplied Tribology
Chapter 17Micro tribology
17.1Micro friction
17.2Micro contact and adhesive phenomena
17.3Micro wear
17.4Molecular film and boundary lubrication
References
Chapter 18Metal forming tribology
18.1Mechanics basics in forming technology
18.2Forge tribology
18.3Drawing tribology
18.4Milling tribology
18.5Cutting tribology
References
Chapter 19Biological tribology
19.1Fundamental of mechanics on biological soft tissue
19.2Characteristics of liquid lubricant of joints
19.3Men and animal joint lubrication
19.4Friction and wear of joint
19.5Study on other biological tribology
References
Chapter 20Space tribology
20.1Space machinery and features of space tribology
20.2Analysis of space tribological properties
20.3Space lubricants
20.4Features of space lubrication
20.5Accelerating life tests and equipments
References
Chapter 21Ocean tribology
21.1Ocean enriro ment and ocean tribology characteristics
21.2Systems and equipments in ocean tribology
21.3Tribology characteristics of ocean materials
21.4Derelopment trend of ocean tribology
References
Chapter 22MEMS tribology
22.1Tribological problems in MEMS
22.2Friction analysis of MEMS
22.3Study on micro�瞞otor friction
22.4Wear analysis of MEMS
References
Chinese�睧nglish List and Index
第1篇润滑理论与润滑设计
第1章润滑膜特性
1.1润滑状态
润滑的目的是在相互摩擦表面之间形成具有法向承载能力而切向剪切强度低的稳定的润滑膜,用它来减少摩擦阻力和降低材料磨损。在现代工业中,用作润滑剂的流体种类繁多,除了最常用的润滑油和润滑脂之外,空气或气体润滑现在已相当普遍,用水或其他工业流体作为润滑剂也日益广泛,例如,在核反应堆里采用液态金属钠润滑。在某些场合也可以使用固体润滑剂,例如石墨、二硫化钼或聚四氟乙烯(PTFE)等。所以,润滑膜可以是液体或气体组成的流体膜,也可以是固体膜。根据润滑膜的形成原理和特征,润滑状态可以分为: ①流体动压润滑; ②流体静压润滑; ③弹性流体动压润滑(简称弹流润滑); ④薄膜润滑; ⑤边界润滑; ⑥干摩擦状态等6种基本状态。表1��1列出了各种润滑状态的基本特 摩擦学原理(第5版)(配光盘) 下载 mobi epub pdf txt 电子书 格式
摩擦学原理(第5版)(配光盘) 下载 mobi pdf epub txt 电子书 格式 2024
摩擦学原理(第5版)(配光盘) 下载 mobi epub pdf 电子书摩擦学原理(第5版)(配光盘) mobi epub pdf txt 电子书 格式下载 2024