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Surface Engineering for Corrosion and Wear Resistance

Author: J. R. Davis

Publisher: ASM International

Published: 2001-01-01

Total Pages: 286

ISBN-13: 1615030727

Engineers are faced with a bewildering array of choices when selecting a surface treatment for a specific corrosion or wear application. This book provides practical information to help them select the best possible treatment. An entire chapter is devoted to process comparisons, and dozens of useful tables and figures compare surface treatment thickness and hardness ranges; abrasion and corrosion resistance; processing time, temperature, and pressure; costs; distortion tendencies; and other critical process factors and coating characteristics. The chapter Practical Guidelines for Surface Engin.

Materials Degradation and Its Control by Surface Engineering

Author: Andrew W. Batchelor

Publisher: World Scientific

Published: 2011

Total Pages: 420

ISBN-13: 1848165013

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Surface Engineering Casebook

Author: J S Burnell-Gray

Publisher: Elsevier

Published: 1996-01-30

Total Pages: 301

ISBN-13: 0857092960

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This book concisely and uniquely encompasses the principles of corrosion and wear as manifested in industrial failures and the solutions offered by surface engineering.

Surface Engineering

Author: Ken N. Strafford

Publisher: Routledge

Published: 2018-12-12

Total Pages: 378

ISBN-13: 1351412582

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Surface Engineering: Processes and Applications: This volume covers both innovative and basic methods of surface engineering for improved surface properties.

Corrosion and Surface Engineering

Author: Joanna Michalska

Publisher: Trans Tech Publications Ltd

Published: 2015-01-29

Total Pages: 590

ISBN-13: 3038267775

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Collection of selected, peer reviewed papers from the International Scientific Conference Corrosion 2014, November 18-21, 2014, Gliwice, Poland. The 136 papers are grouped as follows: Chapter 1: Corrosion and Surface Engineering, Corrosion Protection; Chapter 2: Concrete Corrosion; Chapter 3: Corrosion and Surface Engineering in Industry; Chapter 4: Atmospheric Corrosion, Tribocorrosion, Erosion, Hydrogen Degradation and Diffusion; Chapter 5: Microbiological Corrosion; Chapter 6: High-Temperature Corrosion and Surface Strength, Thermal Coating; Chapter 7: Corrosion of Biomaterials; Chapter 8: Testing Methods

Materials Degradation and Its Control by Surface Engineering

Author: Andrew W Batchelor

Publisher: World Scientific

Published: 2011-03-24

Total Pages: 420

ISBN-13: 1908978147

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This book provides a general holistic view of materials degradation without undue emphasis on aqueous corrosion with the neglect of other important topics such as liquid metal corrosion. Discussion of materials degradation is balanced by detailed description and evaluation of surface engineering as a means of managing materials degradation. Thus, the trainee engineer is presented with a comprehensive view of the problem rather than just a part of the problem. The control or management of materials degradation is not only discussed in scientific terms, but the economics or financial aspects of materials degradation and surface engineering is also discussed in detail with the help of analytical models. Contents:Mechanisms of Materials Degradation:Mechanical Causes of Materials DegradationChemical Causes of Materials DegradationMaterials Degradation Induced by Heat and Other Forms of EnergyDuplex Causes of Materials DegradationSurface Engineering:Discrete Coatings Integral Coatings and Modified Surface LayersCharacterization of Surface CoatingsApplication of Control Techniques:Control of Materials DegradationFinancial and Industrial Aspects of Materials Degradation and Its Control Readership: Engineers and scientists in materials engineering, surface science, materials science (general), materials chemistry and surface and interface chemistry. Keywords:Corrosion;Wear;Integral Coatings;Discrete Coatings;Mechanical Damage;Cost Economies of Degradation;CharacterizationKey Features:Includes new sets of questions with answersEmphasizes the importance of selection of materials and its consequenceIntroduces new topics such as in-vivo degradation of biomedical implantsHighlights an analytical model of the costs and benefits of applying surface engineering to control materials degradationReviews:“This textbook is strong in its presentation of difficult concepts and in its unification of phenomenological description, coating technology, and characterization methods.”Surface Innovations

Surface Engineering of Metals

Author: Tadeusz Burakowski

Publisher: CRC Press

Published: 1998-12-23

Total Pages: 612

ISBN-13: 9781420049923

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Surface Engineering of Metals provides basic definitions of classical and modern surface treatments, addressing mechanisms of formation, microstructure, and properties of surface layers. Part I outlines the fundamentals of surface engineering, presents the history of its development, and proposes a two-category classification of surface layers. Discussions include the basic potential and usable properties of superficial layers and coatings, explaining their concept, interaction with other properties, and the significance of these properties for proper selection and functioning. Part II provides an original classification of the production methods of surface layers. Discussions include the latest technologies in this field, characterized by directional or beam interaction of particles or of the heating medium with the treat surface.

Corrosion and Surface Chemistry of Metals

Author: Dieter Landolt

Publisher: EPFL Press

Published: 2007-05-02

Total Pages: 640

ISBN-13: 9780849382338

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Textbook; grad.

Surface Engineering of Light Alloys

Author: Hanshan Dong

Publisher: Elsevier

Published: 2010-05-24

Total Pages: 681

ISBN-13: 1845699459

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The growing use of light alloys in industries such as aerospace, sports equipment and biomedical devices is driving research into surface engineering technologies to enhance their properties for the desired end use. Surface engineering of light alloys: Aluminium, magnesium and titanium alloys provides a comprehensive review of the latest technologies for modifying the surfaces of light alloys to improve their corrosion, wear and tribological properties. Part one discusses surface degradation of light alloys with chapters on corrosion behaviour of magnesium alloys and protection techniques, wear properties of aluminium-based alloys and tribological behaviour of titanium alloys. Part two reviews surface engineering technologies for light alloys including anodising, plasma electrolytic oxidation, thermal spraying, cold spraying, physical vapour deposition, plasma assisted surface treatment, PIII/PSII treatments, laser surface modification, ceramic conversion and duplex treatments. Part three covers applications for surface engineered light alloys including sports equipment, biomedical devices and plasma electrolytic oxidation and anodised aluminium alloys for spacecraft applications. With its distinguished editor and international team of contributors, Surface engineering of light alloys: Aluminium, magnesium and titanium alloys is a standard reference for engineers, metallurgists and materials scientists looking for a comprehensive source of information on surface engineering of aluminium, magnesium and titanium alloys. Discusses surface degradation of light alloys considering corrosion behaviour and wear and tribological properties Examines surface engineering technologies and modification featuring plasma electrolytic oxidation treatments and both thermal and cold spraying Reviews applications for engineered light alloys in sports equipment, biomedical devices and spacecraft

Introduction to Surface Engineering and Functionally Engineered Materials

Author: Peter Martin

Publisher: John Wiley & Sons

Published: 2011-10-04

Total Pages: 586

ISBN-13: 1118171888

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This book provides a clear and understandable text for users and developers of advanced engineered materials, particularly in the area of thin films, and addresses fundamentals of modifying the optical, electrical, photo-electric, triboligical, and corrosion resistance of solid surfaces and adding functionality to solids by engineering their surface, structure, and electronic, magnetic and optical structure. Thin film applications are emphasized. Through the inclusion of multiple clear examples of the technologies, how to use them,and the synthesis processes involved, the reader will gain a deep understanding of the purpose, goals, and methodology of surface engineering and engineered materials. Virtually every advance in thin film, energy, medical, tribological materials technologies has resulted from surface engineering and engineered materials. Surface engineering involves structures and compositions not found naturally in solids and is used to modify the surface properties of solids and involves application of thin film coatings, surface functionalization and activation, and plasma treatment. Engineered materials are the future of thin film technology. Engineered structures such as superlattices, nanolaminates, nanotubes, nanocomposites, smart materials, photonic bandgap materials, metamaterials, molecularly doped polymers and structured materials all have the capacity to expand and increase the functionality of thin films and coatings used in a variety of applications and provide new applications. New advanced deposition processes and hybrid processes are being used and developed to deposit advanced thin film materials and structures not possible with conventional techniques a decade ago. Properties can now be engineered into thin films that achieve performance not possible a decade ago.