Holmberg, K. & Matthews, A.
Coatings Tribology 2nd ed.
Properties, Mechanisms, Techniques and Applications in Surface Engineering
(Tribology and Interface Engineering Series Vol.56)

Elsevier 2009.3
576 pp.(H)
ISBN 0-444-52750-8
　　　　　　　　　　　　　　　　　　　　　　　　　　　　27,400円

Contents
1.Introduction/ 2.Deposition Processes and Coating Structures/ 3.Tribology of Coatings/ 4.Tribological Properties of Coatings/ 5.Coating Characterisation and Performance Evaluation/ 6.Coating Selection/ 7.Applications/ Appendix/ References/ Index/

* The surface coating field is a rapidly developing area of science and technology that offers new methods and techniques to control friction and wear. New coating types are continually being developed and the potential applications in different industrial fields are ever growing, ranging from machine components and consumer products to medical instruments and prostheses. *

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Sinha, S. K. & Briscoe, B. J. ed.
Polymer Tribology

World Scientific Publishing Co.Pte. Ltd. 2009.4
724 pp.(H)
ISBN 1-84816-202-2
　　　　　　　　　　　　　　　　　　　　　　　　　　　　25,500円

Contents
Part 1.Bulk Polymers/ Part 2.Reinforced Polymers/ Part .Polymer Films/ Index/

* This book deals with the new and now-expanding field of friction, wear, and other surface-related mechanical phenomena for polymers. Polymers have been used in various forms such as bulk, films, and composites in applications where their friction, wear resistance, and other surface-related properties have been effectively utilized.

* There are also many examples in which polymers have performed extremely well, such as in tyres, shoes, brakes, gears, bearings, small moving parts in electronics and MEMS, cosmetics/hair products, and artificial human joints. Around the world, much research is currently being undertaken to develop new polymers, in different forms, for further enhancing tribological performance and for finding novel applications.

]* Keeping in view the importance of tribology of polymers for research and technology as well as the vast literature that is now available in research papers and review articles, this timely book brings together a wealth of research data for an understanding of the basic principles of the subject. *

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Blau, P. J.
Friction Science and Technology 2nd ed.
From Concepts to Applications
（摩擦の科学技術　第２版）

CRC Press 2008.10
432 pp.(H)
ISBN 1-4200-5404-X
　　　　　　　　　　　　　　　　　　　　　　　　　　　　12,400円

Contents
1.Introduction/ 2.Mechanics Approaches/ 3.Measuring Friction/ 4.Fundamentals/ 5.Frictional Behavior of Specific Types of Materials/ 6.Lubrication for Friction Control/ 7.The Effects of Tribosystem Variables on Friction/ 8.Running-in and Other Frictional Transitions/ 9.Applications of Friction Technology/ Index/ *

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Takadoum, J.
Materials and Surface Engineering in Tribology

Wiley-ISTE 2008.12
226 pp.(H)
ISBN 1-84821-067-1
　　　　　　　　　　　　　　　　　　　　　　　　　　　　16,200円

Contents
* This title is designed to provide a clear and comprehensive overview of tribology. The book introduces the notion of a surface in tribology where a solid surface is described from topographical, structural, mechanical, and energetic perspectives. It also describes the principal techniques used to characterize and analyze surfaces. The title then discusses what may be called the fundamentals of tribology by introducing and describing the concepts of adhesion, friction, wear, and lubrication.

* The book focuses on the materials used in tribology, introducing the major classes of materials used, either in their bulk states or as coatings, including both protective layers and other coatings used for decorative purposes. Of especial importance to the tribology community are sections that provide the latest information on Nanotribology, Wear, Lubrication, and Wear-Corrosion: Tribocorrosion and Erosion-Corrosion. *

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Martin, J. W. ed.
The Concise Encyclopedia of the Properties of Materials Surfaces
and Interfaces
材料表面・界面特性事典

Elsevier 2008.2
640 pp.(H)
ISBN 0-08-054811-3
　　　　　　　　　　　　　　　　　　　　　　　　　　　　34,200円

Contents
* 本書は、固体表面の構造と熱力学に関する事典です。固体表面の反応性やその触媒的役割、摩擦、潤滑、粘着、磨耗といったトライボロジー的特徴など、さまざまな内容を解説しています。そのほか表面コーティングや界面フィルムの材料特性における重要性、薄膜の製造と特性評価についても幅広く論じています。
* これらの内容を金属やセラミック、ポリマーなど幅広い材料について、およそ100項目にわたって考察しており、木と紙の表面特性についてもレビューを行っています。

1.Abrasive Wear of Ultra-high Molecular Weight Polyethylene/ 2.Adhesion, Fundamentals of M. K. Chaudhury/ 3.Advanced Coatings for Structural Materials/ 4.Atomic Layer Epitaxy/ 5.Atomic Structure of Surface Steps and Reconstruction/ 6.Automotive Body Trim, Coatings, and Paint Systems/ 7.Block Copolymers at Interfaces, Mechanical Strength of C. Creton/ 8.Block Copolymer Thin Films/ 9.Carbon Films/ 10.Carbons and Graphites: Surface Properties of P. M. A. Sherwood/ 11.Catalysis/ 12.Ceramics: Grain Growth/ 13.Coarsening, Modeling Grain Growth/ 14.Composite Dental Materials: Wear/ 15.Composites: Interfaces/ 16.Conjugated Polymers at Surfaces and Interfaces, Electronic and Chemical Structure of J. Birgerson/ 17.Crystal Surfaces, Thermodynamics/ 18.Dielectric and Ferroelectric Ceramics: Interfaces/ 19.Dislocations in Thin Films: Observations/ 20.Elastic Moduli of Polymer Thin Films: A High-throughput Metrology/ 21.Elastomer Surfaces, Contact Mechanics Testing of K. R. Shull/ 22.Electroceramics: Modeling of Grain Boundaries, Interfaces, and Defects/ 23.Epitaxy/ 24.Fatigue Strength: Improving by Surface Treatment, T. Tanaka Ferrite and Austenite: Grain Growth/ 25.Fracture at Interfaces/ 26.Fracture in Thin Films/ 27.Grain Boundaries: Structure/ 28.Grain Boundary Effects in Nanocrystalline Mixed Conducting Films/ 29.Grain Boundary Engineering/ 30.Grain Boundary Geometry: Measurement/ 31.Grain Boundary Segregation, Anisotropy and Prediction/ 32.Grain Boundary Sliding: Experimental Observations/ 33.Grain Boundary Sliding: Theory/ 34.Grain Growth/ 35.Grain Growth, Abnormal/ 36.Grain Growth, Uniform/ 37.Hertzian Contacts/ 38.Heterophase Interfaces/ 39.High-resolution Electron Microscopy of Interfaces/ 40.Interface Stresses/ 41.Kinetics of Epitaxial Growth/ 42.Machining: Wear of Tools/ 43.Mechanical Surface Treatment/ 44.Mechanical Surface Treatments for Decorative Purposes/ 45.Metal Forming and Lubrication/ 46.Metal Forming: Surface Quality of Products/ 47.Metal Hydrides: Sorption Kinetics/ 48.Micro Devices: Stiction and Adhesion/ 49.Molecular Beam Epitaxy/ 50.Molecular Gradients on Surfaces: Formation and Applications in Soft Condensed Matter Science/ 51.Morphological Surface Roughening/ 52.Multilayer Optical Film Modeling/ 53.Multilayers: Electrical Properties, Fuchs/Sondheimer Model/ 54.Oxide Films, Thin/ 55.Paper: Porosity/ 56.Paper Surfaces: Subjective Evaluation/ 57.Paper, Wetting and Penetration of Liquids into/ 58.Piezoelectric Thin Films for MEMS/ 59.Polymer Brushes at Air - Water Interfaces/ 60.Polymer Brushes: Polymerization to Control Interfacial Properties/ 61.Polymer Brushes: Structure and Dynamics/ 62.Polymer Composites, Friction and Wear of K. Friedrich/ 63.Polymer Crystals: Epitaxial Growth/ 64.Polymer Surfaces: Segregation/ 65.Polymer Surfaces: Structure/ 66.Polymer Surfaces: Thermodynamics/ 67.Polymer - Water Interfaces/ 68.Residual Stresses in Coated and Layered Systems/ 69.Segregation to Boundaries/ 70.Self-assembly by Phase Separation in Polymer Thin Films/ 71.Slip Transfer across Microstructural Interfaces in Duplex Titanium Aluminides/ 72.Superconducting Thin Films: Materials, Preparation, and Properties/ 73.Surface Coatings for High-temperature Alloys/ 74.Surface Defects and Reactivity/ 75.Surface Diffusion at Solid Surface: An Atomic View/ 76.Surface Diffusion: Simulations/ 77.Surface Instabilities (Kinetic)/ 78.Surface Photochemistry/ 79.Surface Reactivity of Metal Surfaces Studied by Scanning Tunneling Microscopy (STM)/ 80.Surface Reconstruction/ 81.Surface Roughening/ 82.Surfaces, Laser Coating of P. B. Comita/ 83.Surfaces: Reconstruction/ 84.Thin-film Growth: Phase Transition/ 85.Thin-film Materials for Solid-state Rechargeable Batteries/ 86.Thin-film Processes/ 87.Thin Films: Characterization by X-Rays/ 88.Thin Films: Fatigue/ 89.Thin Films, In Situ Stress Measurement of S. J. Hearne and J. A. Floro/ 90.Thin Films: Mechanical Testing/ 91.Thin Films: Plasticity/ 92.Thin Films: Stresses/ 93.Thin Films: Stress Measurement Techniques/ 94.Thin Films: Texture Effects on Mechanical Properties/ 95.Thin Films: Tribology/ 96.Vapor-deposited Materials, Structure of Z. H. Barber/ 97.Wear and Lubrication/ 98.Wood: Finishes and Coatings/ 99.Wood: Surface Properties and Adhesion/ Index/ *

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Grote, K.- H. & Antonsson, E. K. ed.
Springer Handbook of Mechanical Engineering
シュプリンガー　機械工学ハンドブック

Springer-Verlag 2009.3
1605 pp.(H) + DVD
ISBN 3-540-49131-7
　　　　　　　　　　　　　　　　　　　　　　　　　　　　37,000円

Contents
* 本書は機械工学において求められる幅広い分野の知識をまとめた資料です。例えば力学や機械運動学、熱力学やエネルギーなど、機械システムの分析や設計、製造や維持に必要な物理学の原理などの知識は機械工学分野の研究、学習、応用に必須です。そのほか、統計力学や材料科学、トライボロジー、機械要素や内燃機関、製造工学、計測などは自動車や航空機、加熱・冷却装置、工作機械などの設計や分析に不可欠の知識です。そのほかメカトロニクスやロボット工学、輸送、冷却工学、燃料技術、自動車工学、生体力学、振動、光学など専門的な分野で求められる内容もカバーしています。

Part A: Fundamentals of Mechanical Engineering: 1 Mathematics for Mechanical Engineers/ 2 Engineering Mechanics/ Part B:Applications in Mechanical Engineering: 3 Materials Science and Technology/ 4 Thermodynamics/ 5 Tribology/ 6 Design of Machine Elements/ 7 Manufacturing Engineering/ 8 Measuring and Quality Control/ 9 Engineering Design/ 10�Piston Machines/ 11 Pressure Vessels and Heat Exchangers/ 12 Turbomachinery/ 13 Transportation Systems/ 14 Construction and Earth Moving Equipment/ 15 Enterprise Organization and Operation/ Part C:Complementary Material�for Mechanical Engineers: 16 Power Generation/ 17 Electrical Engineering/ Appendix: Tables and Constants/ Index/ *
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