Materials Science Catalogue 2014

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Materials Science 2014

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Essential Biomaterials ScienceDavidWilliamsUniversity of Liverpool

This groundbreaking single-authored textbook equips students with everything they need to know about biomaterials science, including essential background and theory, comprehensive and up-to-date coverage of existing biomaterials, and industry insights. Contains extensive interweaved case studies, informative glossaries and engaging exercises. An indispensable resource for students of biomaterials science and engineering.Contents: 1. The clinical necessity of biomaterials in the twenty-first century; 2. Essential materials science; 3. Biocompatibility pathways; 4. Implantable medical devices and artificial organs; 5. Regenerative medicine and tissue engineering; 6. Drug and gene delivery; 7. Imaging and diagnostic systems; 8. Contemporary and future biomaterials; 9. Infrastructure of the biomaterials industry.CambridgeTextsinBiomedicalEngineering

2014 246 x 189 mm 670pp 200 b/w illus.  28 colour illus.  35 tables   978-0-521-89908-6 Hardback  £60.00 PublicationMarch2014www.cambridge.org/9780521899086

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Introduction to Biomaterialsbasic Theory with engineering ApplicationsC.M.AgrawalUniversity of Texas, San Antonio

J. L. OngUniversity of Texas, San Antonio

MarkR.ApplefordUniversity of Texas, San Antonio

andGopinathManiUniversity of South Dakota

This succinct textbook is the perfect introduction to biomaterials engineering, linking the fundamental properties of biomaterials to the unique advantages and limitations surrounding their clinical applications. Ideal for students of engineering and materials science, packed with pedagogical features, and concise enough to be taught in a single semester.Contents: 1. Introduction; 2. Basic properties of materials; 3. Biological systems; 4. Characterization of biomaterials; 5. Metals: structure and properties; 6. Polymers; 7. Ceramics; 8. Natural biomaterials; 9. Surface modification; 10. Sterilization of biomedical implants; 11. Cell-biomaterial interactions; 12. Drug delivery systems; 13. Tissue engineering; 14. Clinical applications.CambridgeTextsinBiomedicalEngineering

2013 246 x 189 mm 600pp 238 b/w illus.  150 exercises   978-0-521-11690-9 Hardback  £40.00 PublicationNovember2013www.cambridge.org/9780521116909

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Biological Materials Sciencebiological Materials, bioinspired Materials, and biomaterialsMarcAndréMeyersUniversity of California, San Diego

and Po-Yu ChenNational Tsing Hua University, Taiwan

Taking a materials science approach, this book correlates structure-property relationships with function across a range of biological materials. Biopolymers, bioelastomers, forms, and ceramic composites are covered, and basic concepts are applied to biomimetics. Solved examples and end-of-chapter exercises are provided in the book, with solutions and PowerPoint figures available online.2014 246 x 189 mm 575pp 472 b/w illus. 10 tables 978-1-107-01045-1 Hardback £55.00

PublicationFebruary2014www.cambridge.org/9781107010451

Biomaterials and Regenerative MedicineEditedbyPeterMaUniversity of Michigan, Ann Arbor

Written by world-leading experts, this book details the role of biomaterials in stem cell research and regenerative medicine.

Emphasising basic principles and methodology, this is a must-have reference for anyone in the field of biomaterials, stem cell biology and engineering, tissue engineering and regenerative medicine.2014 246 x 189 mm 800pp 200 b/w illus.  13 tables   978-1-107-01209-7 Hardback  £115.00 PublicationMay2014www.cambridge.org/9781107012097

MateriomicsHigh-Throughput Screening of biomaterial PropertiesEdited by Jan de BoerUniversity of Twente, Enschede, The Netherlands

andClemensA.vanBlitterswijkUniversity of Twente, Enschede, The Netherlands

This complete, yet concise, guide covers the adaptation and application of high throughput screening of biomaterials. Written by internationally renowned experts, illustrated with case studies of state-of-the-art experiments, and including overviews of seminal literature, it is ideal for anyone interested in this rapidly developing field of biomaterials research.2013 247 x 174 mm 219pp 60 b/w illus.   978-1-107-01677-4 Hardback £75.00

eBook availablewww.cambridge.org/9781107016774

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TexTbook

Structure of MaterialsAn Introduction to Crystallography, Diffraction and SymmetrySecond editionMarcDeGraefandMichaelE.McHenryCarnegie Mellon University, Pennsylvania

The new edition of this highly readable, popular textbook covers the fundamentals of crystallography, symmetry and diffraction and applies these concepts to a large range of materials. Now with new end-of-chapter exercises, more illustrations, more streamlined coverage of crystallography and additional coverage of magnetic point group symmetry.Contents: 1. Materials and materials properties; 2. The periodic table and bonds; 3. What is a crystal structure?; 4. Crystallographic computations; 5. Lattice planes; 6. Reciprocal space; 7. Additional crystallographic computations; 8. Symmetry in crystallography; 9. Point groups; 10. Plane groups and space groups; 11. X-ray diffraction: geometry; 12. X-ray diffraction: intensities; 13. Other diffraction techniques; 14. About crystal structures and diffraction patterns; 15. Non-crystallographic point groups; 16. Periodic and aperiodic things; 17. Metallic structures I; 18. Metallic structures II; 19. Metallic structures III: quasicrystals; 20. Metallic structures IV: amorphous metals; 21. Ceramic structures I; 22. Ceramic structures II: high temperature superconductors; 23. Ceramic structures III: terrestrial and extraterrestrial minerals; 24. Molecular solids and biological materials.2012 246 x 189 mm 767pp 411 b/w illus.  90 tables  96 exercises   978-1-107-00587-7 Hardback £45.00

eBook availablewww.cambridge.org/9781107005877

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Introduction to Computational Materials ScienceFundamentals to ApplicationsRichardLeSarIowa State University

Emphasising essential methods and universal principles, this textbook provides everything students need to understand the basics of simulating materials behaviour. Topics covered range from electronic structure methods to microstructural evolution, appendices provide crucial background material and exercises, worked examples and computer codes are provided online to complete the teaching package.Contents: Part I. Some Basics: 1. Materials modelling and simulation; 2. The random walk model; 3. Simulation of finite systems; Part II. Atoms and Molecules: 4. Electronic structure methods; 5. Interatomic potentials; 6. Molecular dynamics; 7. The Monte Carlo method; 8. Molecular and macromolecular systems; Part III. Mesoscopic Methods: 9. Kinetic Monte Carlo; 10. Monte Carlo methods at the mesoscale; 11. Cellular automata; 12. Phase-field methods; 13. Mesoscale dynamics; Part IV. Some Final Words: 14. Materials selection and design; Part V. Appendices: A. Energy units; B. Introduction to materials; C. Mathematical background; D. Classical mechanics; E. Electrostatics; F. Quantum mechanics; G. Statistical thermodynamics and kinetics; H. Linear elasticity; I. Introduction to computation.2013 246 x 189 mm 427pp 339 b/w illus.  15 tables   978-0-521-84587-8 Hardback £60.00

eBook availablewww.cambridge.org/9780521845878

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Introduction to Graphene-Based NanomaterialsFrom electronic Structure to Quantum TransportLuisE.F.FoaTorresUniversidad Nacional de Córdoba, Argentina

StephanRocheCatalan Insitute of Nanotechnology – ICN

and Jean-Christophe CharlierUniversité Catholique de Louvain, Belgium

Beginning with an introduction to carbon-based nanomaterials, their electronic properties, and general concepts in quantum transport, this detailed primer describes the most effective theoretical and computational methods and tools for simulating graphene-based systems.

A perfect introductory resource for graduate students and researchers in nanoscience and nanotechnology, materials science and nanoelectronics.2013 246 x 189 mm 456pp 270 b/w illus.  30 exercises   978-1-107-03083-1 Hardback £60.00 PublicationDecember2013www.cambridge.org/9781107030831

Colloidal Quantum Dot Optoelectronics and PhotovoltaicsEdited by Gerasimos KonstantatosUniversity of Toronto

andEdwardH.SargentUniversity of Toronto

Capturing the most up-to-date research in colloidal quantum dot devices, this book is written in an accessible style by the world’s leading experts. Introductory chapters summarise fundamental physics and chemistry, whilst later chapters review key advances in device engineering, making this an indispensable resource for researchers, students and practitioners alike.2013 247 x 174 mm 336pp 128 b/w illus.  15 tables   978-0-521-19826-4 Hardback £80.00 PublicationNovember2013www.cambridge.org/9780521198264

Thin Film Transistor Circuits and SystemsRezaChajiIgnis Innovation Inc., Kitchener, Ontario

andArokiaNathanUniversity of Cambridge

Provides a comprehensive review of the design challenges associated with building circuits and systems from thin-film transistors, including architecture, fabrication and design considerations.2013 228 x 152 mm 184pp 113 b/w illus.  11 tables   978-1-107-01233-2 Hardback £50.00www.cambridge.org/9781107012332

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Ceramic LasersAkioIkesueYanLinAungWorld-Lab. Co. Ltd

andVoicuLupeiNational Institute of Laser, Plasma and Radiation Physics

Co-authored by one of the pioneers of this field, the book describes the fabrication technology and theoretical characterization of ceramic material properties. It describes novel types of solid lasers and other optics using ceramic materials, making it an invaluable guide for physicists, materials scientists and engineers working on laser ceramics.2013 247 x 174 mm 455pp 245 b/w illus.  20 tables   978-0-521-11408-0 Hardback £70.00www.cambridge.org/9780521114080

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PUbliShed in ParTnerShiP wiTh The MaTerialS reSearCh SoCieTy

Fundamentals of Materials for Energy and Environmental SustainabilityEditedbyDavidS.GinleyNational Renewable Energy Laboratory, Golden, Colorado

andDavidCahenWeizmann Institute of Science, Israel

Understand the fundamental science behind the range of energy options currently open to us and their relationship to the environment.2012 276 x 219 mm 772pp 450 colour illus.  80 tables   978-1-107-00023-0 Hardback £65.00

eBook availablewww.cambridge.org/9781107000230

Liquid Surfaces and InterfacesSynchrotron x-ray MethodsPeterS.PershanHarvard University, Massachusetts

andMarkSchlossmanUniversity of Illinois, Chicago

A practical guide to all aspects of x-ray scattering experiments on liquid surfaces and interfaces, this book enables readers to understand and carry out experimental investigations into molecular ordering at liquid surfaces and interfaces. It is ideal for graduate students and researchers in physics, chemistry, biology and materials science.Contents: 1. Introduction; 2. Instrumentation; 3. Theory of x-ray scattering from liquid surfaces; 4. Experiments on liquid surfaces and interfaces.

‘Anyoneinterestedinlearningabout the physical properties of liquidsurfaceswillappreciatethis comprehensive treatise that emphasizessynchrotronx-rayscatteringmethods.Thebookprovides a rigorous approach to scattering theory as well as a practical guide on how to align instruments. PershanandSchlossmanpresentanexcellentsummaryofourcurrentunderstanding of the structure and thermal fluctuations observed at liquidinterfaceswithawiderangeofexamplesextendingfromsimpleliquidstoLangmuirmonolayers.Thereis no doubt that this will become the standardformanyyears.’Ben Ocko, Brookhaven National Laboratory

2012 247 x 174 mm 334pp 123 b/w illus.  12 tables   978-0-521-81401-0 Hardback £85.00

eBook availablewww.cambridge.org/9780521814010

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Introduction to Nanofiber MaterialsFrank KoUniversity of British Columbia, Vancouver

andYuqinWanUniversity of British Columbia, Vancouver

Presenting the latest coverage of the fundamentals and applications of nanofibrous materials and their structures for graduate students and researchers, this book bridges the communication gap between fiber technologists, materials scientists and engineers.2014 247 x 174 mm 306pp 216 b/w illus.  20 tables   978-0-521-87983-5 Hardback  £60.00 PublicationApril2014www.cambridge.org/9780521879835

Fundamentals and Applications of Micro and NanofibersAlexanderYarinUniversity of Illinois, Chicago Behnam Pourdeyhimi North Carolina State University

andSeeramRamakrishnaNational University of Singapore

A comprehensive exposition of micro- and nanofiber forming, this text provides a unified framework of these processes (melt- and solution blowing, electrospinning, and so on) and describes their foundations, development and applications. Ideal for researchers, engineers and graduate students interested in formation of micro- and nanofibers and their use in functional smart materials.2014 247 x 174 mm 438pp 274 b/w illus. 19 tables 978-1-107-06029-6 Hardback £60.00 PublicationApril2014 www.cambridge.org/9781107060296

Dendrimers, Dendrons, and Dendritic PolymersDiscovery, Applications, and the FutureDonaldA.TomaliaNanoSynthons, LLC

Jørn B. ChristensenUniversity of Copenhagen

and Ulrik BoasTechnical University of Denmark, Lyngby

Dendrimer science has exploded onto the polymer science scene, presenting a completely new polymeric architecture. It offers unique architecturally driven properties which promise exciting advancements in nanotechnology. This book presents the history of dendrimer discovery, synthetic strategies, characterisation methodologies, dendritic effects and the future impact on nanotechnology and commercial applications.

‘Thisbookoffersessentialinformationfor newcomers as well as those experiencedinthefield…willbeuseful for researchers – including inorganic, organic, supramolecular, polymer, and physical chemists – as well as nanoscientists and medical practitioners.’CEP

2012 247 x 174 mm 420pp 269 b/w illus.  2 tables   978-0-521-51580-1 Hardback £60.00

eBook availablewww.cambridge.org/9780521515801

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Chemistry of Fossil Fuels and BiofuelsHaroldSchobertPennsylvania State University

Focusing on today’s major fuel resources, this book discusses the natural processes by which they are formed; their composition and properties; and the ways in which they are converted or upgraded into the forms in commercial use. It is ideal for graduate students and professionals in chemical engineering and energy technology.Contents: 1. Fuels and the global carbon cycle; 2. Catalysis, enzymes and proteins; 3. Photosynthesis and the formation of polysaccharides; 4. Ethanol; 5. Plant oils and biodiesel; 6. Composition and reactions of wood; 7. Reactive intermediates; 8. Formation of fossil fuels; 9. Structure-property relationships among hydrocarbons; 10. Composition, properties and processing of natural gas; 11. Composition, properties and classification of petroleum; 12. Petroleum distillation; 13. Heterogeneous catalysis; 14. Catalytic routes to gasoline; 15. Middle distillate fuels; 16. Thermal processing in refining; 17. Composition, properties and classification of coals; 18. The inorganic chemistry of coals; 19. Production of synthetic gas; 20. Gas treatment and shifting; 21. Uses of synthetic gas; 22. Direct production of liquid fuels from coal pyrolysis; 23. Carbonization and coking of coal; 24. Carbon products from fossil and biofuels; 25. Carbon dioxide.CambridgeSeriesinChemicalEngineering

2013 247 x 174 mm 497pp 200 b/w illus.  54 tables   978-0-521-11400-4 Hardback £70.00

eBook availablewww.cambridge.org/9780521114004

The Physics of Deformation and Fracture of PolymersAliS.ArgonMassachusetts Institute of Technology

Demonstrating through examples, this book presents a mechanism-based perspective on the broad ranges of deformation and fracture response of all solid polymers. It provides a means of developing wide-ranging computational capability for modelling complex 3D deformation processing of polymers from industrial scale applications to nanoscale biofluidic devices.2013 247 x 174 mm 532pp 235 b/w illus.  15 tables   978-0-521-82184-1 Hardback £85.00

eBook availablewww.cambridge.org/9780521821841

Physical Gels from Biological and Synthetic PolymersMadeleineDjabourovEcole Supérieure de Physique et de Chimie Industrielles de la Ville de Paris

Katsuyoshi NishinariHubei University of Technology

andSimonB.Ross-MurphyUniversity of Manchester

Presenting a unique perspective on state-of-the-art physical gels, this interdisciplinary guide highlights recent developments and provides the information needed to understand current and future practical applications. It shows the interconnections between the key aspects of gels, from molecules and structure through to rheological and functional properties.2013 247 x 174 mm 365pp 170 b/w illus.  7 tables   978-0-521-76964-8 Hardback £80.00

eBook availablewww.cambridge.org/9780521769648

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Thermodynamics of Surfaces and InterfacesConcepts in Inorganic MaterialsGeraldMeierUniversity of Pittsburgh

An accessible yet rigorous discussion of the thermodynamics of surfaces and interfaces, delivering a comprehensive guide without an overwhelming amount of mathematics. Features case studies to illustrate real-world applications, and study problems to reinforce the reader’s understanding of important concepts. An ideal reference for students and practitioners in the field.2014 247 x 174 mm 250pp 125 b/w illus.  14 tables  38 exercises   978-0-521-87908-8 Hardback  £70.00 PublicationOctober2014www.cambridge.org/9780521879088

Materials in Mechanical ExtremesFundamentals and ApplicationsNeil Bourne

Exploring the underlying principles of materials under extreme external pressures, this unified guide provides a toolbox for assessing and predicting their behaviour and applying them to practical design situations. Real-world examples are included from a range of natural phenomena and industrial applications across science and engineering.2013 247 x 174 mm 539pp 225 b/w illus.  25 tables   978-1-107-02375-8 Hardback £70.00

eBook availablewww.cambridge.org/9781107023758

Damage and Failure of Composite MaterialsRameshTalrejaTexas A & M University

andChandraVeerSinghUniversity of Toronto

Damage and failure of materials is a topic of concern in many engineering applications, particularly where reliable and cost-effective design is important. This book provides a complete treatment of damage mechanics of composite materials, presenting a balanced experimental and computational approach for engineers and materials scientists in industry and academia.2012 247 x 174 mm 314pp 171 b/w illus.   978-0-521-81942-8 Hardback £65.00

eBook availablewww.cambridge.org/9780521819428

Iron and SteelWilliamF.HosfordUniversity of Michigan, Ann Arbor

Iron and steel remain the most commonly used materials in manufacturing. This book is a complete treatment of iron and steel including some history, methods involved in their production, descriptions of various steels and cast irons and their properties and how they are heat treated.2012 228 x 152 mm 310pp 307 b/w illus.  22 tables   978-1-107-01798-6 Hardback £50.00

eBook availablewww.cambridge.org/9781107017986

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Smart Structures TheoryInderjitChopraUniversity of Maryland, College Park

andJayantSirohiUniversity of Texas, Austin

Smart materials and structures are also referred to as intelligent, adaptive, active, sensory and metamorphic. This book presents our goal to develop biologically inspired multifunctional materials with the capability to adapt their structural characteristics, monitor their health condition, perform self-diagnosis and self-repair, morph their shape and undergo significant controlled motion.CambridgeAerospaceSeries,35

2013 253 x 177 mm 896pp 524 b/w illus.  59 tables   978-0-521-86657-6 Hardback  £85.00 PublicationDecember2013www.cambridge.org/9780521866576

Fundamentals of Engineering PlasticityWilliamF.HosfordUniversity of Michigan, Ann Arbor

William Hosford’s book is ideal for those involved in designing sheet metal forming processes. Knowledge of plasticity is essential for the computer simulation of metal forming processes, and understanding the advances in plasticity theory is key to formulating sound analyses. Includes simplified notations designed for process designers.2013 228 x 152 mm 288pp 230 b/w illus.   978-1-107-03755-7 Hardback £45.00

eBook availablewww.cambridge.org/9781107037557

Introduction to the Network Approximation Method for Materials ModelingLeonid BerlyandPennsylvania State University

AlexanderG.KolpakovUniversità degli Studi di Cassino e del Lazio Meridionale

andAlexeiNovikovPennsylvania State University

This introductory text presents the state of the art in general framework approximation theory. .EncyclopediaofMathematicsanditsApplications,148

2012 234 x 156 mm 255pp 65 b/w illus.   978-1-107-02823-4 Hardback £50.00

eBook availablewww.cambridge.org/9781107028234

Nonlinear Solid Mechanicsbifurcation Theory and Material InstabilityDavideBigoniUniversità degli Studi di Trento, Italy

For researchers and graduate students, this book addresses the complex modelling of materials behaviour under extreme mechanical conditions, and of failure in terms of non-linear continuum mechanics and instability theory. The theoretical framework presented helps us understand failure conditions, crucial for exploitation of traditional materials and design of innovative materials.2012 253 x 177 mm 544pp 235 b/w illus.  18 colour illus.  10 tables   978-1-107-02541-7 Hardback £85.00

eBook availablewww.cambridge.org/9781107025417

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For institutions: Cambridge publications are also available for institutional purchase as online collections and packages. Visit: www.universitypublishingonline.org.

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VOLUME 2 • NO 2, 2012

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