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81 Gladush, Gennady G Physics of Laser Materials Processing I06536 2011 eBook  
82 He, Ming Metal-Dielectric Interfaces in Gigascale Electronics I06534 2012 eBook  
83 Panigrahi, Pradipta Kumar Schlieren and Shadowgraph Methods in Heat and Mass Transfer I06483 2012 eBook  
84 Forbes, Jerry W Shock Wave Compression of Condensed Matter I06450 2012 eBook  
85 Asai, Shigeo Electromagnetic Processing of Materials I06445 2012 eBook  
86 Baehr, Hans Dieter Thermodynamik I06424 2009 eBook  
87 Ventura, Guglielmo Thermal Properties of Solids at Room and Cryogenic Temperatures I06393 2014 eBook  
88 Seebauer, Edmund G Charged Semiconductor Defects I06334 2009 eBook  
89 Brun, Raymond High Temperature Phenomena in Shock Waves I06328 2012 eBook  
90 Fierros Palacios, Angel The Hamilton-Type Principle in Fluid Dynamics I06236 2006 eBook  
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81.    
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TitlePhysics of Laser Materials Processing : Theory and Experiment
Author(s)Gladush, Gennady G;Smurov, Igor
PublicationBerlin, Heidelberg, Springer Berlin Heidelberg, 2011.
DescriptionXVIII, 534 p : online resource
Abstract NoteThis book describes the basic mechanisms, theory, simulations and technological aspects of Laser processing techniques. It covers the principles of laser quenching, welding, cutting, alloying, selective sintering, ablation, etc. The main attention is paid to the quantitative description. The diversity and complexity of technological and physical processes is discussed using a unitary approach. The book aims on understanding the cause-and-effect relations in physical processes in Laser technologies. It will help researchers and engineers to improve the existing and develop new Laser machining techniques. The book addresses readers with a certain background in general physics and mathematical analysis: graduate students, researchers and engineers practicing laser applications
ISBN,Price9783642198311
Keyword(s)1. Applied and Technical Physics 2. EBOOK 3. EBOOK - SPRINGER 4. Engineering Thermodynamics, Heat and Mass Transfer 5. Heat engineering 6. HEAT TRANSFER 7. LASERS 8. MASS TRANSFER 9. Metallic Materials 10. METALS 11. Optics, Lasers, Photonics, Optical Devices 12. PHOTONICS 13. PHYSICS 14. THERMODYNAMICS
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82.     
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TitleMetal-Dielectric Interfaces in Gigascale Electronics : Thermal and Electrical Stability
Author(s)He, Ming;Lu, Toh-Ming
PublicationNew York, NY, Springer New York, 2012.
DescriptionXI, 149 p. 120 illus., 48 illus. in color : online resource
Abstract NoteMetal-dielectric interfaces are ubiquitous in modern electronics. As advanced gigascale electronic devices continue to shrink, the stability of these interfaces is becoming an increasingly important issue that has a profound impact on the operational reliability of these devices. In this book, the authors present the basic science underlying ??the thermal and electrical stability of metal-dielectric interfaces and its relationship to the operation of advanced interconnect systems in gigascale electronics. Interface phenomena, including chemical reactions between metals and dielectrics, metallic-atom diffusion, and ion drift, are discussed based on fundamental physical and chemical principles. Schematic diagrams are provided throughout the book to illustrate ??interface phenomena and the principles that govern them. Metal-Dielectric Interfaces in Gigascale Electronics ??provides a unifying approach to the diverse and sometimes contradictory test results that are reported in the literature on metal-dielectric interfaces. The goal is to provide readers with a clear account of the relationship between interface science and its applications in interconnect structures. The material presented here will also be of interest to those engaged in field-effect transistor and memristor device research, as well as university researchers and industrial scientists working in the areas of electronic materials processing, semiconductor manufacturing, memory chips, and IC design.???? Presents a unified approach to understanding the diverse phenomena observed at metal-dielectric interfaces Features fundamental considerations in the physics and chemistry of metal-dielectric interactions Explores mechanisms of metal atom diffusion and metal ion drift in dielectrics Provides keys to understanding reliability in gigascale electronics Focuses on a dynamic area of current research that is a foundation??of future interconnect systems, memristors, and solid-state electrolyte devices Presents a unified approach to understanding the diverse phenomena observed at metal-dielectric interfaces
ISBN,Price9781461418122
Keyword(s)1. EBOOK 2. EBOOK - SPRINGER 3. Electrochemistry 4. Electronic materials 5. ELECTRONICS 6. Electronics and Microelectronics, Instrumentation 7. Engineering Thermodynamics, Heat and Mass Transfer 8. Heat engineering 9. HEAT TRANSFER 10. Interfaces (Physical sciences) 11. MASS TRANSFER 12. MICROELECTRONICS 13. NANOTECHNOLOGY 14. Nanotechnology and Microengineering 15. Optical and Electronic Materials 16. OPTICAL MATERIALS 17. Surface and Interface Science, Thin Films 18. Surfaces (Physics) 19. THERMODYNAMICS 20. THIN FILMS
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83.     
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TitleSchlieren and Shadowgraph Methods in Heat and Mass Transfer
Author(s)Panigrahi, Pradipta Kumar;Muralidhar, Krishnamurthy
PublicationNew York, NY, Springer New York, 2012.
DescriptionXI, 128 p. 69 illus., 17 illus. in color : online resource
Abstract NoteSchlieren and Shadowgraph Methods in Heat and Mass Transfer lays out the fundamentals of refractive index based imaging techniques, optical configurations, image analysis, and three dimensional reconstructions. The present monograph aims at temperature and concentration measurements in transparent media using ray bending effects in a variable refractive index field. Data analysis procedure for??three-dimensional reconstruction of temperature and concentration field using images at different view angles is presented. Test cases illustrating the validation of the quantitative analysis procedure are presented.????
ISBN,Price9781461445357
Keyword(s)1. EBOOK 2. EBOOK - SPRINGER 3. Engineering Thermodynamics, Heat and Mass Transfer 4. Heat engineering 5. HEAT TRANSFER 6. MASS TRANSFER 7. MICROWAVES 8. Microwaves, RF and Optical Engineering 9. OPTICAL ENGINEERING 10. THERMODYNAMICS
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84.     
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TitleShock Wave Compression of Condensed Matter : A Primer
Author(s)Forbes, Jerry W
PublicationBerlin, Heidelberg, Springer Berlin Heidelberg, 2012.
DescriptionXIV, 374 p. 211 illus., 11 illus. in color : online resource
Abstract NoteThis book introduces the core concepts of the shock wave physics of condensed matter, taking a continuum mechanics approach to examine liquids and isotropic solids. The text primarily focuses on one-dimensional uniaxial compression in order to show the key features of condensed matter???s response to shock wave loading. The first four chapters are specifically designed to quickly familiarize physical scientists and engineers with how shock waves interact with other shock waves or material boundaries, as well as to allow readers to better understand shock wave literature, use basic data analysis techniques, and design simple 1-D shock wave experiments. This is achieved by first presenting the steady one-dimensional strain conservation laws using shock wave impedance matching, which insures conservation of mass, momentum and energy. Here, the initial emphasis is on the meaning of shock wave and mass velocities in a laboratory coordinate system. An overview of basic experimental techniques for measuring pressure, shock velocity, mass velocity, compression and internal energy of steady 1-D shock waves is then presented. In the second part of the book, more advanced topics are progressively introduced: thermodynamic surfaces are used to describe equilibrium flow behavior, first-order Maxwell solid models are used to describe time-dependent flow behavior, descriptions of detonation shock waves in ideal and non-ideal explosives are provided, and lastly, a select group of current issues in shock wave physics are discussed in the final chapter
ISBN,Price9783642325359
Keyword(s)1. CONDENSED MATTER 2. CONDENSED MATTER PHYSICS 3. EBOOK 4. EBOOK - SPRINGER 5. Engineering Thermodynamics, Heat and Mass Transfer 6. Heat engineering 7. HEAT TRANSFER 8. MASS TRANSFER 9. MECHANICS 10. Mechanics, Applied 11. Solid Mechanics 12. THERMODYNAMICS
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85.     
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TitleElectromagnetic Processing of Materials : Materials Processing by Using Electric and Magnetic Functions
Author(s)Asai, Shigeo
PublicationDordrecht, Springer Netherlands, 2012.
DescriptionXII, 176 p : online resource
Abstract NoteThis book??is both??a course book and a monograph. In fact, it has developed from notes given to graduate course students on materials processing in the years 1989 to 2006. Electromagnetic Processing of Materials (EPM), originates??from??a branch??of materials science and engineering??developed in the??1980s as a field aiming to create new materials and/or design processes by making use of various functions which appear when applying the electric and magnetic fields??to materials. It is based on transport phenomena, materials processing and magnetohydrodynamics. The first chapter briefly introduces the history, background and technology of EPM. In the second chapter, the concept of transport phenomena is concisely introduced and in the third chapter the essential part of magnetohydrodynamics is transcribed and readers are??shown that the concept of transport phenomena??does not only apply??to heat, mass and momentum, but also magnetic field. The fourth chapter describes electromagnetic processing of electrically conductive materials such as electromagnetic levitation, mixing, brake, and etc., which are caused by the Lorentz force. The fifth chapter treats magnetic processing of organic and non-organic materials such as magnetic levitation, crystal orientation, structural alignment and etc., which are induced by the magnetization force. This part is a new academic field named Magneto-Science, which?? focuses??on the development of super-conducting magnets. This book is written so as to be understood by any graduate student in engineering courses but also to be of interest to engineers and researchers in industries
ISBN,Price9789400726451
Keyword(s)1. CLASSICAL ELECTRODYNAMICS 2. EBOOK 3. EBOOK - SPRINGER 4. ELECTRODYNAMICS 5. Engineering Fluid Dynamics 6. Engineering Thermodynamics, Heat and Mass Transfer 7. FLUID MECHANICS 8. Heat engineering 9. HEAT TRANSFER 10. Manufactures 11. Manufacturing, Machines, Tools, Processes 12. MASS TRANSFER 13. MATERIALS SCIENCE 14. Materials Science, general 15. OPTICS 16. THERMODYNAMICS
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I06445     On Shelf    

86.     
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TitleThermodynamik : Grundlagen und technische Anwendungen
Author(s)Baehr, Hans Dieter;Kabelac, Stephan
PublicationBerlin, Heidelberg, Springer Berlin Heidelberg, 2009.
DescriptionXIX, 667 S : online resource
Abstract NoteF??r die aktualisierte 14. Auflage des bew??hrten Lehrbuchs der Technischen Thermodynamik wurde das Kapitel ??ber W??rmekraftanlagen gr??ndlich bearbeitet und durch einen Abschnitt zur Energiewandlung erg??nzt: Die Energiebedarfsstruktur von Deutschland wird erl??utert, und die m??glichen Energiewandlungspfade werden diskutiert. Schwerpunkt des Buches ist die ausf??hrliche und auch dem Anf??nger verst??ndliche Darstellung der Grundlagen der Thermodynamik mit der sorgf??ltigen Einf??hrung der thermodynamischen Begriffe und den fundamentalen Bilanzgleichungen f??r Energie, Entropie und Exergie. Die thermodynamischen Eigenschaften reiner Fluide und fluider Gemische werden eingehend erl??utert. Darauf aufbauend wird die Thermodynamik der Gemische und der chemischen Reaktionen entwickelt. Auch die thermodynamischen Aspekte wichtiger energie- und verfahrenstechnischer Anwendungen werden praxisnah behandelt: - Str??mungs- und Arbeitsprozesse, - thermische Stofftrennverfahren, - Verbrennungsprozesse und Verbrennungskraftanlagen, - thermische Kraftwerke, - CO2-Emissionen der Stromerzeugung, - Heizsysteme und K??lteanlagen. Dieses umfassende und aktuelle Lehrbuch wendet sich an Studierende des Maschinenbaus, der Energie- und der Verfahrenstechnik im Grund- und Hauptstudium sowie an Ingenieure in der Praxis
ISBN,Price9783642005565
Keyword(s)1. CHEMICAL ENGINEERING 2. EBOOK 3. EBOOK - SPRINGER 4. ENERGY SYSTEMS 5. Engineering Thermodynamics, Heat and Mass Transfer 6. Heat engineering 7. HEAT TRANSFER 8. Industrial Chemistry/Chemical Engineering 9. MASS TRANSFER 10. THERMODYNAMICS
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87.     
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TitleThermal Properties of Solids at Room and Cryogenic Temperatures
Author(s)Ventura, Guglielmo;Perfetti, Mauro
PublicationDordrecht, Springer Netherlands, 2014.
DescriptionXI, 216 p. 104 illus., 3 illus. in color : online resource
Abstract NoteThis book is a guide for materials scientists, physicists, chemists and engineers who wish to??explore the field of low-temperature material properties. The focus is on heat capacity, thermal expansion and electrical and thermal conductivity. The authors report a wide range of experimental details and data, and have compiled useful tables of low-temperature data. Each chapter of the book starts by addressing the theoretical basis of the phenomena. This is a concise presentation, but it helps the reader to develop a deeper understanding of the experiments. The second part of the chapters is dedicated to describing the main experimental techniques to measure thermal properties at low and very low temperature ranges. The final part of each chapter provides a wealth of relevant experimental data in the form of tables and graphs
ISBN,Price9789401789691
Keyword(s)1. Characterization and Evaluation of Materials 2. EBOOK 3. EBOOK - SPRINGER 4. Engineering Thermodynamics, Heat and Mass Transfer 5. Heat engineering 6. HEAT TRANSFER 7. MASS TRANSFER 8. MATERIALS SCIENCE 9. Metallic Materials 10. METALS 11. PHYSICAL CHEMISTRY 12. SEMICONDUCTORS 13. SOLID STATE PHYSICS 14. THERMODYNAMICS
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I06393     On Shelf    

88.     
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TitleCharged Semiconductor Defects : Structure, Thermodynamics and Diffusion
Author(s)Seebauer, Edmund G;Kratzer, Meredith C
PublicationLondon, Springer London, 2009.
DescriptionXIV, 298 p : online resource
Abstract NoteThe technologically useful properties of a solid often depend upon the types and concentrations of the defects it contains. Not surprisingly, defects in semiconductors have been studied for many years, in many cases with a view towards controlling their behavior through various forms of "defect engineering." For example, in the bulk, charging significantly affects the total concentration of defects that are available to mediate phenomena such as solid-state diffusion. Surface defects play an important role in mediating surface mass transport during high temperature processing steps such as epitaxial film deposition, diffusional smoothing in reflow, and nanostructure formation in memory device fabrication. Charged Semiconductor Defects details the current state of knowledge regarding the properties of the ionized defects that can affect the behavior of advanced transistors, photo-active devices, catalysts, and sensors. Features: Group IV, III-V, and oxide semiconductors; Intrinsic and extrinsic defects; and, Point defects, as well as defect pairs, complexes and clusters. A crucial reference for materials scientists, surface scientists, electrical engineers, and solid-state physicists looking to approach the topic of defect charging from an integrated chemical engineering perspective. Researchers and industrial practitioners alike will find its content invaluable for device and process optimization
ISBN,Price9781848820593
Keyword(s)1. EBOOK 2. EBOOK - SPRINGER 3. Electronic materials 4. ELECTRONICS 5. Electronics and Microelectronics, Instrumentation 6. Engineering Thermodynamics, Heat and Mass Transfer 7. Heat engineering 8. HEAT TRANSFER 9. MASS TRANSFER 10. MECHANICS 11. Mechanics, Applied 12. MICROELECTRONICS 13. MICROSCOPY 14. Optical and Electronic Materials 15. OPTICAL MATERIALS 16. Solid Mechanics 17. SOLID STATE PHYSICS 18. SPECTROSCOPY 19. Spectroscopy and Microscopy 20. THERMODYNAMICS
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I06334     On Shelf    

89.     
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TitleHigh Temperature Phenomena in Shock Waves
Author(s)Brun, Raymond
PublicationBerlin, Heidelberg, Springer Berlin Heidelberg, 2012.
DescriptionIX, 337 p : online resource
Abstract NoteThe high temperatures generated in gases by shock waves give rise to physical and chemical phenomena such as molecular vibrational excitation, dissociation, ionization, chemical reactions and inherently related radiation. In continuum regime, these processes start from the wave front, so that generally the gaseous media behind shock waves may be in a thermodynamic and chemical non-equilibrium state. This book presents the state of knowledge of these phenomena. Thus, the thermodynamic properties of high temperature gases, including the plasma state are described, as well as the kinetics of the various chemical phenomena cited above. Numerous results of measurement and computation of vibrational relaxation times, dissociation and reaction rate constants are given, and various ionization and radiative mechanisms and processes are presented. The coupling between these different phenomena is taken into account as well as their interaction with the flow-field. Particular points such as the case of rarefied flows and the inside of the shock wave itself are also examined. Examples of specific non-equilibrium flows are given, generally corresponding to those encountered during spatial missions or in shock tube experiments
ISBN,Price9783642251191
Keyword(s)1. EBOOK 2. EBOOK - SPRINGER 3. Engineering Fluid Dynamics 4. Engineering Thermodynamics, Heat and Mass Transfer 5. FLUID MECHANICS 6. Fluid- and Aerodynamics 7. FLUIDS 8. Heat engineering 9. HEAT TRANSFER 10. MASS TRANSFER 11. THERMODYNAMICS
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90.    
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TitleThe Hamilton-Type Principle in Fluid Dynamics : Fundamentals and Applications to Magnetohydrodynamics, Thermodynamics, and Astrophysics
Author(s)Fierros Palacios, Angel
PublicationVienna, Springer Vienna, 2006.
DescriptionXXV, 404 p : online resource
Abstract NoteThe objective of this book is to contribute to specialized literature with the most significant results obtained by the author in Continuous Mechanics and Astrophysics. The nature of the book is largely determined by the fact that it describes Fluid Dynamics,Magnetohydrodynamics,and Classical Thermodynamics as branches of Lagrange???s Analytical Mechanics; and in that sense, the approach presented in it is markedly different from the treatment given to them in traditional text books. In order to reach that goal, a Hamilton-Type Variational Principle, as the proper mathermatical technique for the theoretical description of the dy- mic state of any fluid is formulated. The scheme is completed proposing a new group of variations regarding the evolution parameter which is time; and with the demonstration of a theorem concerning the invariance of the action integral under continuous and infinitesimal temporary transfor- tions. With all that has been mentioned before and taking into account the methodsof thecalculusof variationsandtheadequateboundaryconditions, a general methodology for the mathematical treatment of fluid flows characteristic of Fluid Dynamics, Magnetohydrodynamics, and also fluids at rest proper of Classical Thermodynamics is presented
ISBN,Price9783211343241
Keyword(s)1. ASTROPHYSICS 2. Astrophysics and Astroparticles 3. Classical and Continuum Physics 4. CLASSICAL ELECTRODYNAMICS 5. Continuum physics 6. EBOOK 7. EBOOK - SPRINGER 8. ELECTRODYNAMICS 9. Engineering Fluid Dynamics 10. Engineering Thermodynamics, Heat and Mass Transfer 11. FLUID MECHANICS 12. Heat engineering 13. HEAT TRANSFER 14. MASS TRANSFER 15. MECHANICS 16. Mechanics, Applied 17. OPTICS 18. Solid Mechanics 19. THERMODYNAMICS
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