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Sintering of advanced materials : fundamentals and processes /

Sintering is a method for manufacturing components from ceramic or metal powders by heating the powder until the particles adhere to form the component required. The resulting products are characterised by an enhanced density and strength, and are used in a wide range of industries. Sintering of adv...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Fang, Zhigang Zak
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Oxford ; Philadelphia, PA : Woodhead Pub., 2010.
Colección:Woodhead Publishing in materials.
Temas:
Acceso en línea:Texto completo

MARC

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245 0 0 |a Sintering of advanced materials :  |b fundamentals and processes /  |c edited by Zhigang Zak Fang. 
260 |a Oxford ;  |a Philadelphia, PA :  |b Woodhead Pub.,  |c 2010. 
300 |a 1 online resource (xvi, 483 pages) :  |b illustrations (some color). 
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504 |a Includes bibliographical references and index. 
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520 |a Sintering is a method for manufacturing components from ceramic or metal powders by heating the powder until the particles adhere to form the component required. The resulting products are characterised by an enhanced density and strength, and are used in a wide range of industries. Sintering of advanced materials: fundamentals and processes reviews important developments in this technology and its applications Part one discusses the fundamentals of sintering with chapters on topics such as the thermodynamics of sintering, kinetics and mechanisms of densification, the kinetics of microstructural change and liquid phase sintering. Part two reviews advanced sintering processes including atmospheric sintering, vacuum sintering, microwave sintering, field/current assisted sintering and photonic sintering. Finally, Part three covers sintering of aluminium, titanium and their alloys, refractory metals, ultrahard materials, thin films, ultrafine and nanosized particles for advanced materials. With its distinguished editor and international team of contributors, Sintering of advanced materials: fundamentals and processes reviews the latest advances in sintering and is a standard reference for researchers and engineers involved in the processing of ceramics, powder metallurgy, net-shape manufacturing and those using advanced materials in such sectors as electronics, automotive and aerospace engineering. Explores the thermodynamics of sintering including sinter bonding and densificationChapters review a variety of sintering methods including atmosphere, vacuum, liquid phase and microwave sinteringDiscusses sintering of a variety of materials featuring refractory metals, super hard materials and functionally graded materials. 
505 0 |a Cover; Sintering of advanced materials: Fundamentals and processes; Copyright; Contents; Contributor contact details; Introduction; Part I Fundamentals of sintering; 1 Thermodynamics of sintering; 1.1 Introduction; 1.2 The sintering process; 1.3 Surface energy; 1.4 Sintering stress; 1.5 Atomistic changes in sintering; 1.6 Sintering changes prior to interfacial energy equilibrium; 1.7 Microstructure gradients; 1.8 Chemical and strain gradients; 1.9 Thermodynamics, stages and mechanisms of mass flow; 1.10 Microstructure links to sintering thermodynamics; 1.11 Conclusion. 
505 8 |a 1.12 Sources of further information and advice1.13 References; 2 Kinetics and mechanisms of densification; 2.1 Introduction; 2.2 Solid-state sintering; 2.3 Viscous sintering; 2.4 Liquid-phase sintering; 2.5 Pressure-assisted sintering; 2.6 Effects of material and process variables; 2.7 Conclusions; 2.8 Sources of further information and advice; 2.9 References; 3 Path and kinetics of microstructural change in simple sintering; 3.1 Introduction; 3.2 The description of microstructural evolution; 3.3 Path of microstructural change in sintering; 3.4 Cell structure visualization of the path. 
505 8 |a 3.5 The thermodynamics of sintering3.6 Kinetics of densification; 3.7 Discussion; 3.8 Conclusion; 3.9 References; 4 Computer modelling of sintering: theory and examples; 4.1 Introduction; 4.2 Sintering modelling at the atomic scale; 4.3 Sintering modelling at the particle level; 4.4 Sintering modelling at the component scale; 4.5 Multi-scale modelling of sintering; 4.6 Conclusion; 4.7 Acknowledgements; 4.8 References; 5 Liquid phase sintering; 5.1 Introduction; 5.2 Grain growth in a liquid matrix; 5.3 Densification during liquid phase sintering; 5.4 Summary; 5.5 References. 
505 8 |a 6 Master sintering curve and its application in sintering of electronic ceramics6.1 Introduction to electroceramics; 6.2 Sintering and densification of electroceramics; 6.3 Master sintering curve as applied to electronic ceramics; 6.4 Extending the master sintering curve to the third dimension; 6.5 Case study: Controlling electrical performance of ZnO varistors using a master sintering curve; 6.6 Conclusion; 6.7 Acknowledgements; 6.8 References; Part II Advanced sintering processes; 7 Atmosphere sintering; 7.1 Introduction; 7.2 Types and sources of sintering atmospheres. 
505 8 |a 7.3 Thermodynamics aspects of atmosphere sintering7.4 Role of atmosphere in sintering; 7.5 References; 8 Vacuum sintering; 8.1 Introduction; 8.2 Evaporation under vacuum; 8.3 Material purification; 8.4 Densification under vacuum; 8.5 Equipment configurations; 8.6 Practical processing; 8.7 References; 9 Microwave sintering of ceramics, composites and metal powders; 9.1 Introduction; 9.2 Microwave sintering of important materials; 9.3 Mechanisms to explain microwave-matter interactions; 9.4 Future trends; 9.5 Sources of further information and advice; 9.6 References. 
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