05539nam 2200733Ia 450 991014443010332120230721004028.01-282-12391-297866121239170-470-98771-50-470-98770-7(CKB)1000000000687378(EBL)470324(OCoLC)609849118(SSID)ssj0000354528(PQKBManifestationID)11298729(PQKBTitleCode)TC0000354528(PQKBWorkID)10313573(PQKB)10809233(MiAaPQ)EBC470324(Au-PeEL)EBL470324(CaPaEBR)ebr10301064(CaONFJC)MIL212391(EXLCZ)99100000000068737820080117d2008 uy 0engur|n|---|||||txtccrNanolubricants[electronic resource] /edited by Jean Michel Martin, Nobuo OhmaeChichester, England ;Hoboken, NJ Wileyc20081 online resource (248 p.)Tribology seriesDescription based upon print version of record.0-470-06552-4 Includes bibliographical references and index.Nanolubricants; Contents; Preface; List of Acronyms; 1 Colloidal Lubrication; 1.1 Stability of Colloids Dispersed in a Base Oil; 1.2 Lubrication by Micellar Systems; 1.3 Lubrication by Metallic Nanoparticles; 1.4 Colloids Embedded in a Coating; References; 2 Nanoparticles Made of Metal Dichalcogenides; 2.1 Tribological Properties of 2H-MoS2; 2.2 IF-MoS2 and IF-WS2 Fullerene-like Nanoparticles; 2.3 IF-MoS2 and IF-WS2 as Additives in Boundary Lubrication; 2.3.1 IF-MoS2; 2.3.2 IF-WS2; 2.3.3 Other Fullerenes; 2.4 NT-MoS2 and NT-WS2 Nanotubes as Lubricant Additives2.5 Lubrication by a Mixture of Fullerenes2.6 Tribological Properties of Mo-S-I Nanowires; 2.6.1 Influence of the Nanowire Concentration in PAO on the Tribological Properties; 2.7 Raman Tribometry on IF-MS2; 2.7.1 In situ Observation of the Structures in the Interface; 2.7.2 Raman Tribometry; 2.8 Lubrication Mechanism of IF-MS2: 'A Drug Delivery' Model; 2.9 Conclusion; Acknowledgements; References; 3 Carbon-Based Nanolubricants; 3.1 Graphite Onion Synthesis and Characterization; 3.2 Tribological Properties of Different Carbon Onions; 3.3 Possible Lubrication Mechanism of Carbon Onions3.4 Nanotube Synthesis and Characterization3.5 Friction-Reducing and Antiwear Properties of Different Nanotubes; 3.5.1 SWNTs; 3.5.2 DWNTs; 3.5.3 MWNTs; 3.6 Possible Mechanism of Action of the Nanotubes; 3.7 Conclusion; Acknowledgements; References; 4 Reverse Micelles and Encapsulated Nanoparticle Approaches; 4.1 Introduction; 4.2 Overview of the Structures of Stoichiometric and Overbased Soap Additives; 4.2.1 Dynamic Organic Micelles; 4.2.2 Dynamic Soap Micelles; 4.2.3 Encapsulated Nano-Sized Particles, also Called 'Overbased Reverse Micelles'4.3 Behaviour of the Micelles at the Solid-Liquid Interface4.4 Tribologic Properties of Colloidal Systems; 4.4.1 Friction Reduction Properties of Micelles Related to Their Structure; 4.4.2 Antiwear Action Mechanisms of Colloidal Systems; 4.4.3 Nature and Structure of Antiwear Films Obtained with Strontium and Calcium Compounds; 4.4.4 Associated Antifriction and Antiwear Actions in Tribological Behaviour of Colloidal additives; 4.5 Conclusion and Perspectives; References; 5 Nanolubricants Made of Metals; 5.1 Introduction; 5.2 Nanolubricants Made of Coinage Metal Nanoparticles5.2.1 Organic Compound Surface-Capped Copper Nanoparticles as Oil Additives5.2.2 Copper Nanoparticles Passivated by Carbon Film Used as Oil Additives; 5.3 Nanolubricants Made of Low Melting Point Metal Nanoparticles; 5.3.1 Nanolubricants of Indium, Tin and Bismuth via the Direct Solution-Dispersing Method; 5.3.2 Nanolubricants of Lead and Bismuth via the Surfactant-Assisted Solution-Dispersing Method; 5.4 Nanolubricants Made of Low Melting Point Metal Alloy Nanoparticles; 5.4.1 In-Sn, Bi-In and Pb-Bi Nanoparticles Prepared by the Direct Solution-Dispersing Method5.4.2 Sn-Bi and Sn-Cd Alloy Nanoparticles Prepared by the Ultrasonic-Assistant Solution-Dispersing MethodThe technology involved in lubrication by nanoparticles is a rapidly developing scientific area and one that has been watched with interest for the past ten years. Nanolubrication offers a solution to many problems associated with traditional lubricants that contain sulphur and phosphorus; and though for some time the production of nanoparticles was restricted by the technologies available, today synthesis methods have been improved to such a level that it is possible to produce large quantities relatively cheaply and efficiently. Nanolubricants develops a new concept of lubrication, Tribology series.Lubrication and lubricantsNanoparticlesNanotechnologyMetal clustersLubrication and lubricants.Nanoparticles.Nanotechnology.Metal clusters.621.8/9621.89Martin Jean Michel1948-894576Ohmae Nobuo894577MiAaPQMiAaPQMiAaPQBOOK9910144430103321Nanolubricants1998455UNINA