Fluid Mechanics


Author: Frank Mangrom White,Rhim Yoon Chul
Publisher: N.A
ISBN: 9789814720175
Category: Fluid mechanics
Page: 773
View: 6338
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Fluid Mechanics


Author: Frank M. White
Publisher: McGraw-Hill Science, Engineering & Mathematics
ISBN: 9780073529349
Category: Technology & Engineering
Page: 862
View: 5168
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Offers a comprehensive presentation of the material that demonstrates the progression from physical concepts to engineering applications and helps students quickly see the practical importance of fluid mechanics fundamentals.

Ingenieurwerkstoffe

Einführung in ihre Eigenschaften und Anwendungen
Author: Michael F. Ashby,David R.H. Jones
Publisher: Springer-Verlag
ISBN: 3642932924
Category: Science
Page: 334
View: 8445
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Fluid Mechanics Fundamental and Applications, Cengel & Cimbala, 2006

Fluid Mechanics Fundamental and Applications
Author: The McGraw Hill Companies, Inc
Publisher: Bukupedia
ISBN: N.A
Category: Science
Page: 2036
View: 4782
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BACKGROUND Fluid mechanics is an exciting and fascinating subject with unlimited practical applications ranging from microscopic biological systems to automobiles, airplanes, and spacecraft propulsion. Yet fluid mechanics has historically been one of the most challenging subjects for undergraduate students. Unlike earlier freshman- and sophomore-level subjects such as physics, chemistry, and engineering mechanics, where students often learn equations and then “plug and chug” on their calculators, proper analysis of a problem in fluid mechanics requires much more. Oftentimes, students must first assess the problem, make and justify assumptions and/or approximations, apply the relevant physical laws in their proper forms, and solve the resulting equations before ever plugging any numbers into their calculators. Many problems in fluid mechanics require more than just knowledge of the subject, but also physical intuition and experience. Our hope is that this book, through its careful explanations of concepts and its use of numerous practical examples, sketches, figures, and photographs, bridges the gap between knowledge and proper application of that knowledge. Fluid mechanics is a mature subject; the basic equations and approximations are well established and can be found in numerous introductory fluid mechanics books. The books are distinguished from one another in the way the material is presented. An accessible fluid mechanics book should present the material in a progressive order from simple to more difficult, building each chapter upon foundations laid down in previous chapters. In this way, even the traditionally challenging aspects of fluid mechanics can be learned effectively. Fluid mechanics is by its very nature a highly visual subject, and students learn more readily by visual stimulation. It is therefore imperative that a good fluid mechanics book also provide quality figures, photographs, and visual aids that help to explain the significance and meaning of the mathematical expressions. O B J E C T I V E S This book is intended for use as a textbook in the first fluid mechanics course for undergraduate engineering students in their junior or senior year. Students are assumed to have an adequate background in calculus, physics, engineering mechanics, and thermodynamics. The objectives of this text are • To cover the basic principles and equations of fluid mechanics • To present numerous and diverse real-world engineering examples to give students a feel for how fluid mechanics is applied in engineering practice • To develop an intuitive understanding of fluid mechanics by emphasizing the physics, and by supplying attractive figures and visual aids to reinforce the physics The text contains sufficient material to give instructors flexibility as to which topics to emphasize. For example, aeronautics and aerospace engineering instructors may emphasize potential flow, drag and lift, compressible flow, turbomachinery, and CFD, while mechanical and civil engineering instructors may choose to emphasize pipe flows and open-channel flows, respectively. The book has been written with enough breadth of coverage that it can be used for a two-course sequence in fluid mechanics if desired. PHILOSOPHY AND GOAL We have adopted the same philosophy as that of the texts Thermodynamics: An Engineering Approach by Y. A. Çengel and M. A. Boles, Heat Transfer: A Practical Approach by Y. A. Çengel, and Fundamentals of Thermal-Fluid Sciences by Y. A. Çengel and R. H. Turner, all published by McGraw-Hill. Namely, our goal is to offer an engineering textbook that • Communicates directly to the minds of tomorrow’s engineers in a simple yet precise manner • Leads students toward a clear understanding and firm grasp of the basic principles of fluid mechanics • Encourages creative thinking and development of a deeper understanding and intuitive feel for fluid mechanics • Is read by students with interest and enthusiasm rather than merely as an aid to solve problems It is our philosophy that the best way to learn is by practice. Therefore, special effort is made throughout the book to reinforce material that was presented earlier (both earlier in the chapter and in previous chapters). For example, many of the illustrated example problems and end-of-chapter problems are comprehensive, forcing the student to review concepts learned in previous chapters. Throughout the book, we show examples generated by computational fluid dynamics (CFD), and we provide an introductory chapter on CFD. Our goal is not to teach details about numerical algorithms associated with CFD—this is more properly presented in a separate course, typically at the graduate level. Rather, it is our intent to introduce undergraduate students to the capabilities and limitations of CFD as an engineering tool.We use CFD solutions in much the same way as we use experimental results from a wind tunnel test, i.e., to reinforce understanding of the physics of fluid flows and to provide quality flow visualizations that help to explain fluid behavior. CONTENT AND ORGANIZAT I O N This book is organized into 15 chapters beginning with fundamental concepts of fluids and fluid flows and ending with an introduction to computational fluid dynamics, the application of which is rapidly becoming more commonplace, even at the undergraduate level. • Chapter 1 provides a basic introduction to fluids, classifications of fluid flow, control volume versus system formulations, dimensions, units, significant digits, and problem-solving techniques. • Chapter 2 is devoted to fluid properties such as density, vapor pressure, specific heats, viscosity, and surface tension. • Chapter 3 deals with fluid statics and pressure, including manometers and barometers, hydrostatic forces on submerged surfaces, buoyancy and stability, and fluids in rigid-body motion. • Chapter 4 covers topics related to fluid kinematics, such as the differences between Lagrangian and Eulerian descriptions of fluid flows, flow patterns, flow visualization, vorticity and rotationality, and the Reynolds transport theorem. • Chapter 5 introduces the fundamental conservation laws of mass, momentum, and energy, with emphasis on the proper use of the mass, Bernoulli, and energy equations and the engineering applications of these equations. • Chapter 6 applies the Reynolds transport theorem to linear momentum and angular momentum and emphasizes practical engineering applications of the finite control volume momentum analysis. • Chapter 7 reinforces the concept of dimensional homogeneity and introduces the Buckingham Pi theorem of dimensional analysis, dynamic similarity, and the method of repeating variables—material that is useful throughout the rest of the book and in many disciplines in science and engineering. • Chapter 8 is devoted to flow in pipes and ducts. We discuss the differences between laminar and turbulent flow, friction losses in pipes and ducts, and minor losses in piping networks. We also explain how to properly select a pump or fan to match a piping network. Finally, we discuss various experimental devices that are used to measure flow rate and velocity. • Chapter 9 deals with differential analysis of fluid flow and includes derivation and application of the continuity equation, the Cauchy equation, and the Navier–Stokes equation. We also introduce the stream function and describe its usefulness in analysis of fluid flows. • Chapter 10 discusses several approximations of the Navier–Stokes equations and provides example solutions for each approximation, including creeping flow, inviscid flow, irrotational (potential) flow, and boundary layers. • Chapter 11 covers forces on bodies (drag and lift), explaining the distinction between friction and pressure drag, and providing drag coefficients for many common geometries. This chapter emphasizes the practical application of wind tunnel measurements coupled with dynamic similarity and dimensional analysis concepts introduced earlier in Chapter 7. • Chapter 12 extends fluid flow analysis to compressible flow, where the behavior of gases is greatly affected by the Mach number, and the concepts of expansion waves, normal and oblique shock waves, and choked flow are introduced. • Chapter 13 deals with open-channel flow and some of the unique features associated with the flow of liquids with a free surface, such as surface waves and hydraulic jumps. • Chapter 14 examines turbomachinery in more detail, including pumps, fans, and turbines. An emphasis is placed on how pumps and turbines work, rather than on their detailed design. We also discuss overall pump and turbine design, based on dynamic similarity laws and simplified velocity vector analyses. • Chapter 15 describes the fundamental concepts of computational fluid dynamics (CFD) and shows students how to use commercial CFD codes as a tool to solve complex fluid mechanics problems. We emphasize the application of CFD rather than the algorithms used in CFD codes. Each chapter contains a large number of end-of-chapter homework problems suitable for use by instructors. Most of the problems that involve calculations are in SI units, but approximately 20 percent are written in English units. Finally, a comprehensive set of appendices is provided, giving the thermodynamic and fluid properties of several materials, not just air and water as in most introductory fluids texts. Many of the end-of-chapter problems require use of the properties found in these appendices. LEARNING TOOLS EMPHASIS ON PHYSICS A distinctive feature of this book is its emphasis on the physical aspects of the subject matter in addition to mathematical representations and manipulations. The authors believe that the emphasis in undergraduate education should remain on developing a sense of underlying physical mechanisms and a mastery of solving practical problems that an engineer is likely to face in the real world. Developing an intuitive understanding should also make the course a more motivating and worthwhile experience for the students. EFFECTIVE USE OF ASSOCIATION An observant mind should have no difficulty understanding engineering sciences. After all, the principles of engineering sciences are based on our everyday experiences and experimental observations. Therefore, a physical, intuitive approach is used throughout this text. Frequently, parallels are drawn between the subject matter and students’ everyday experiences so that they can relate the subject matter to what they already know. SELF-INSTRUCTING The material in the text is introduced at a level that an average student can follow comfortably. It speaks to students, not over students. In fact, it is selfinstructive. Noting that the principles of science are based on experimental observations, most of the derivations in this text are largely based on physical arguments, and thus they are easy to follow and understand. EXTENSIVE USE OF ARTWORK Figures are important learning tools that help the students “get the picture,” and the text makes effective use of graphics. It contains more figures and illustrations than any other book in this category. Figures attract attention and stimulate curiosity and interest. Most of the figures in this text are intended to serve as a means of emphasizing some key concepts that would otherwise go unnoticed; some serve as page summaries. CHAPTER OPENERS AND SUMMARIES Each chapter begins with an overview of the material to be covered. A summary is included at the end of each chapter, providing a quick review of basic concepts and important relations, and pointing out the relevance of the material. NUMEROUS WORKED-OUT EXAMPLES WITH A SYSTEMATIC SOLUTIONS PROCEDURE Each chapter contains several worked-out examples that clarify the material and illustrate the use of the basic principles. An intuitive and systematic approach is used in the solution of the example problems, while maintaining an informal conversational style. The problem is first stated, and the objectives are identified. The assumptions are then stated, together with their justifications. The properties needed to solve the problem are listed separately. Numerical values are used together with their units to emphasize that numbers without units are meaningless, and unit manipulations are as important as manipulating the numerical values with a calculator. The significance of the findings is discussed following the solutions. This approach is also used consistently in the solutions presented in the instructor’s solutions manual. A WEALTH OF REALISTIC END-OF-CHAPTER PROBLEMS The end-of-chapter problems are grouped under specific topics to make problem selection easier for both instructors and students. Within each group of problems are Concept Questions, indicated by “C,” to check the students’ level of understanding of basic concepts. The problems under Review Problems are more comprehensive in nature and are not directly tied to any specific section of a chapter – in some cases they require review of material learned in previous chapters. Problems designated as Design and Essay are intended to encourage students to make engineering judgments, to conduct independent exploration of topics of interest, and to communicate their findings in a professional manner. Problems designated by an “E” are in English units, and SI users can ignore them. Problems with the are solved using EES, and complete solutions together with parametric studies are included on the enclosed DVD. Problems with the are comprehensive in nature and are intended to be solved with a computer, preferably using the EES software that accompanies this text. Several economics- and safety-related problems are incorporated throughout to enhance cost and safety awareness among engineering students. Answers to selected problems are listed immediately following the problem for convenience to students. USE OF COMMON NOTATION The use of different notation for the same quantities in different engineering courses has long been a source of discontent and confusion. A student taking both fluid mechanics and heat transfer, for example, has to use the notation Q for volume flow rate in one course, and for heat transfer in the other. The need to unify notation in engineering education has often been raised, even in some reports of conferences sponsored by the National Science Foundation through Foundation Coalitions, but little effort has been made to date in this regard. For example, refer to the final report of the “Mini-Conference on Energy Stem Innovations, May 28 and 29, 2003, University of Wisconsin.” In this text we made a conscious effort to minimize this conflict by adopting the familiar thermodynamic notation V . for volume flow rate, thus reserving the notation Q for heat transfer. Also, we consistently use an overdot to denote time rate. We think that both students and instructors will appreciate this effort to promote a common notation. A CHOICE OF SI ALONE OR SI/ENGLISH UNITS In recognition of the fact that English units are still widely used in some industries, both SI and English units are used in this text, with an emphasis on SI. The material in this text can be covered using combined SI/English units or SI units alone, depending on the preference of the instructor. The property tables and charts in the appendices are presented in both units, except the ones that involve dimensionless quantities. Problems, tables, and charts in English units are designated by “E” after the number for easy recognition, and they can be ignored easily by the SI users. COMBINED COVERAGE OF BERNOULLI AND ENERGY EQUATIONS The Bernoulli equation is one of the most frequently used equations in fluid mechanics, but it is also one of the most misused. Therefore, it is important to emphasize the limitations on the use of this idealized equation and to show how to properly account for imperfections and irreversible losses. In Chapter 5, we do this by introducing the energy equation right after the Bernoulli equation and demonstrating how the solutions of many practical engineering problems differ from those obtained using the Bernoulli equation. This helps students develop a realistic view of the Bernoulli equation. A SEPARATE CHAPTER ON CFD Commercial Computational Fluid Dynamics (CFD) codes are widely used in engineering practice in the design and analysis of flow systems, and it has become exceedingly important for engineers to have a solid understanding of the fundamental aspects, capabilities, and limitations of CFD. Recognizing that most undergraduate engineering curriculums do not have room for a full course on CFD, a separate chapter is included here to make up for this deficiency and to equip students with an adequate background on the strengths and weaknesses of CFD. APPLICATION SPOTLIGHTS Throughout the book are highlighted examples called Application Spotlights where a real-world application of fluid mechanics is shown. A unique feature of these special examples is that they are written by guest authors. The Application Spotlights are designed to show students how fluid mechanics has diverse applications in a wide variety of fields. They also include eye-catching photographs from the guest authors’ research. GLOSSARY OF FLUID MECHANICS TERMS Throughout the chapters, when an important key term or concept is introduced and defined, it appears in black boldface type. Fundamental fluid mechanics terms and concepts appear in blue boldface type, and these fundamental terms also appear in a comprehensive end-of-book glossary developed by Professor James Brasseur of The Pennsylvania State University. This unique glossary is an excellent learning and review tool for students as they move forward in their study of fluid mechanics. In addition, students can test their knowledge of these fundamental terms by using the interactive flash cards and other resources located on our accompanying website (www.mhhe.com/cengel). CONVERSION FACTORS Frequently used conversion factors, physical constants, and frequently used properties of air and water at 20°C and atmospheric pressure are listed on the front inner cover pages of the text for easy reference. NOMENCLATURE A list of the major symbols, subscripts, and superscripts used in the text are listed on the inside back cover pages of the text for easy reference. SUPPLEMENTS These supplements are available to adopters of the book: STUDENT RESOURCES DVD Packaged free with every new copy of the text, this DVD provides a wealth of resources for students including Fluid Mechanics Videos, a CFD Animations Library, and EES Software. ONLINE LEARNING CENTER Web support is provided for the book on our Online Learning Center at www.mhhe.com/cengel. Visit this robust site for book and supplement information, errata, author information, and further resources for instructors and students. ENGINEERING EQUATION SOLVER (EES) Developed by Sanford Klein and William Beckman from the University of Wisconsin–Madison, this software combines equation-solving capability and engineering property data. EES can do optimization, parametric analysis, and linear and nonlinear regression, and provides publication-quality plotting capabilities. Thermodynamics and transport properties for air, water, and many other fluids are built-in and EES allows the user to enter property data or functional relationships. FLUENT FLOWLAB® SOFTWARE AND TEMPLATES As an integral part of Chapter 15, “Introduction to Computational Fluid Dynamics,” we provide access to a student-friendly CFD software package developed by Fluent Inc. In addition, we provide over 40 FLUENT FLOWLAB templates to complement the end-of-chapter problems in Chapter 15. These problems and templates are unique in that they are designed with both a fluid mechanics learning objective and a CFD learning objective in mind. INSTRUCTOR’S RESOURCE CD-ROM (AVAILABLE TO INSTRUCTORS ONLY) This CD, available to instructors only, offers a wide range of classroom preparation and presentation resources including an electronic solutions manual with PDF files by chapter, all text chapters and appendices as downloadable PDF files, and all text figures in JPEG format. COSMOS CD-ROM (AVAILABLE TO INSTRUCTORS ONLY) This CD, available to instructors only, provides electronic solutions delivered via our database management tool. McGraw-Hill’s COSMOS allows instructors to streamline the creation of assignments, quizzes, and tests by using problems and solutions from the textbook—as well as their own custom material. ACKNOWLEDGMENTS The authors would like to acknowledge with appreciation the numerous and valuable comments, suggestions, constructive criticisms, and praise from the following evaluators and reviewers: xxii FLUID MECHANICS Mohammad Ali Kettering University Darryl Alofs University of Missouri, Rolla Farrukh Alvi Florida A & M University & Florida State University Ryoichi Amano University of Wisconsin–Milwaukee Michael Amitay Rensselaer Polytechnic Institute T. P. Ashokbabu National Institute of Technology, India Idirb Azouz Southern Utah University Kenneth S. Ball University of Texas at Austin James G. Brasseur The Pennsylvania State University Glenn Brown Oklahoma State University John Callister Cornell University Frederick Carranti Syracuse University Kevin W. Cassel Illinois Institute of Technology Haris Catrakis University of California, Irvine Louis N. Cattafesta III University of Florida Soyoung Cha University of Illinois at Chicago Tiao Chang Ohio University Young Cho Drexel University Po-Ya (Abel) Chuang The Pennsylvania State University William H. Colwill American Hydro Corporation A. Terrence Conlisk Jr. The Ohio State University Daniel Cox Texas A&M University John Crepeau University of Idaho Jie Cui Tennessee Technological University Lisa Davids Embry-Riddle Aeronautical University Jerry Drummond The University of Akron Dwayne Edwards University of Kentucky Richard Figliola Clemson University Charles Forsberg Hofstra University Fred K. Forster University of Washington

Wärme- und Stoffübertragung


Author: Hans D. Baehr,Karl Stephan
Publisher: Springer-Verlag
ISBN: 3662108372
Category: Technology & Engineering
Page: 698
View: 3396
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Dieses bereits in zweiter Auflage vorliegende Lehrbuch ist eine umfassende und gründliche Darstellung der Wärme- und Stoffübertragung. Ihre Theorie wird systematisch entwickelt, und die Lösungsmethoden aller wichtigen Probleme werden ausführlich behandelt. Daher eignet sich dieses Buch nicht nur für Studenten, sondern nützt auch Wissenschaftlern und Ingenieuren in der Praxis als zuverlässiges Nachschlagewerk. Alle Gebiete der Wärme- und Stoffübertragung werden dargestellt: Wärmeleitung und Diffusion, konvektiver Wärme- und Stoffaustausch, Wärmetransport beim Kondensieren und Verdampfen, die Wärmestrahlung sowie die Berechnung der Wärme- und Stoffübertragung. Zahlreiche durchgerechnete Beispiele sowie Übungsaufgaben und Lösungen erleichtern das Verständnis.

Grenzschicht-Theorie


Author: H. Schlichting,Klaus Gersten
Publisher: Springer-Verlag
ISBN: 3662075547
Category: Technology & Engineering
Page: 852
View: 5274
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Die Überarbeitung für die 10. deutschsprachige Auflage von Hermann Schlichtings Standardwerk wurde wiederum von Klaus Gersten geleitet, der schon die umfassende Neuformulierung der 9. Auflage vorgenommen hatte. Es wurden durchgängig Aktualisierungen vorgenommen, aber auch das Kapitel 15 von Herbert Oertel jr. neu bearbeitet. Das Buch gibt einen umfassenden Überblick über den Einsatz der Grenzschicht-Theorie in allen Bereichen der Strömungsmechanik. Dabei liegt der Schwerpunkt bei den Umströmungen von Körpern (z.B. Flugzeugaerodynamik). Das Buch wird wieder den Studenten der Strömungsmechanik wie auch Industrie-Ingenieuren ein unverzichtbarer Partner unerschöpflicher Informationen sein.

Schnellaufende Verbrennungsmotoren


Author: Harry R. Ricardo,A. Werner,P. Friedmann
Publisher: Springer-Verlag
ISBN: 3642507808
Category: Technology & Engineering
Page: 452
View: 921
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Dieser Buchtitel ist Teil des Digitalisierungsprojekts Springer Book Archives mit Publikationen, die seit den Anfängen des Verlags von 1842 erschienen sind. Der Verlag stellt mit diesem Archiv Quellen für die historische wie auch die disziplingeschichtliche Forschung zur Verfügung, die jeweils im historischen Kontext betrachtet werden müssen. Dieser Titel erschien in der Zeit vor 1945 und wird daher in seiner zeittypischen politisch-ideologischen Ausrichtung vom Verlag nicht beworben.

Fundamentals of Thermal-fluid Sciences


Author: Yunus A. Çengel,John M. Cimbala,Robert H. Turner
Publisher: N.A
ISBN: 9780071266314
Category: Fluid mechanics
Page: 1055
View: 1073
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THE THIRD EDITION of Fundamentals of Thermal-Fluid Sciences presents a balanced coverage of thermodynamics, fluid mechanics, and heat transfer packaged in a manner suitable for use in introductory thermal sciences courses. By emphasizing the physics and underlying physical phenomena involved, the text gives students practical examples that allow development of an understanding of the theoretical underpinnings of thermal sciences. All the popular features of the previous edition are retained in this edition while new ones are added.

Quantenmechanik


Author: Claude Cohen-Tannoudji,Bernard Diu,Franck Laloë
Publisher: Walter de Gruyter
ISBN: 9783110193244
Category: Science
Page: 739
View: 1249
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Die Übersetzung des bekannten französischen Lehrbuchs führt Studierende der Physik in die Quantenmechanik ein. Es erscheint nun bereits in dritter Auflage. Jedes Kapitel besteht aus zwei Teilen. Im ersten Teil werden die grundlegenden Postulate und Begriffe vorgestellt, im zweiten wird anhand zahlreicher Anwendungen der Umgang mit dem quantenmechanischen Grundwissen vermittelt. Das Werk ist Lehr- und Übungsbuch zugleich und auch in der Berufspraxis als Nachschlagewerk einsetzbar. Übersetzung des bekannten und zeitlosen Werkes des Nobelpreisträgers Cohen-Tannoudji und seiner Co-Autoren. Einzigartiges Konzept der zweigeteilten Kapitel mit den grundlegenden Begriffen im ersten Teil sowie Aufgaben und physikalischen Anwendungen im zweiten Teil.

Werkstoffe 2: Metalle, Keramiken und Gläser, Kunststoffe und Verbundwerkstoffe

Deutsche Ausgabe herausgegeben von Michael Heinzelmann
Author: Michael F. Ashby,David R. H. Jones
Publisher: Spektrum Akademischer Verlag
ISBN: 9783827417091
Category: Technology & Engineering
Page: 338
View: 2063
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Kurzweilig geschrieben, didaktisch überzeugend sowie fachlich umfassend und hochkompetent: Diesen Qualitäten verdanken die beiden Bände des Ashby/Jones schon seit Jahren ihre führende Stellung unter den englischsprachigen Lehrbüchern der Werkstoffkunde. Der nun in der deutschen Ausgabe vorliegende zweite Band behandelt ausführlich, wie die für technische Anwendungen wichtigsten Werkstoffeigenschaften von Metallen, Keramiken und Gläsern, sowie Kunst- und Verbundwerkstoffen von ihrer Herstellung und Mikrostruktur abhängen und in technischen Konstruktionen gewinnbringend eingesetzt werden. Zielgruppe dieses werkstoffkundlichen Standardwerkes sind fortgeschrittene Studenten der Ingenieur- und Werkstoffwissenschaften sowie Ingenieure und Techniker. Aus dem Inhalt: - Metalle: Strukturen, Phasendiagramme, Triebkräfte und Kinetik von Strukturänderungen, diffusive und martensitische Umwandlungen, Stähle, Leichtmetalle, Herstellung und Umformung - Keramiken und Gläser: Strukturen, mechanischEigenschaften, Streuung der Festigkeitswerte, Herstellung und Verarbeitung, Sonderthema Zement und Beton - Kunststoffe und Verbundwerkstoffe: Strukturen, mechanisches Verhalten, Herstellung, Verbundwerkstoffe, Sonderthema Holz - Werkstoffgerechtes Konstruieren, Werkstoffkundliche Untersuchung von Schadensfällen (Brückeneinsturz über dem Firth of Tay, Flugzeugabstürze der Baureihe Comet, Eisenbahnkatastrophe von Eschede, ein gerissenes Bungee-Seil) - Anhang: Phasendiagramme im Selbststudium Highlights: - Detaillierte Fallstudien, Beispiele und Übungsaufgaben - Ausführliche Hinweise zu Konstruktion und Anwendungen Verwandte Titel: Ashby/Jones, Werkstoffe 1: Eigenschaften, Mechanismen und Anwendungen. Deutsche Ausgabe der dritten Auflage des englischen Originals, 2006 Ashby, Materials Selection in Mechanical Design: Das Original mit Übersetzungshilfen. Easy-Reading-Ausgabe der dritten Auflage des englischen Originals, 2006

Arduino-Workshops

Eine praktische Einführung mit 65 Projekten
Author: John Boxall
Publisher: dpunkt.verlag
ISBN: 3864913802
Category: Computers
Page: 448
View: 8048
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Der Arduino ist eine preiswerte und flexible Open-Source-Mikrocontroller- Plattform mit einer nahezu unbegrenzten Palette von Add-ons für die Ein- und Ausgänge - wie Sensoren, Displays, Aktoren und vielem mehr. In "Arduino-Workshops" erfahren Sie, wie diese Add-ons funktionieren und wie man sie in eigene Projekte integriert. Sie starten mit einem Überblick über das Arduino-System und erfahren dann rasch alles über die verschiedenen elektronischen Komponenten und Konzepte. Hands-on-Projekte im ganzen Buch vertiefen das Gelernte Schritt für Schritt und helfen Ihnen, dieses Wissen anzuwenden. Je tiefer Sie in die Materie eindringen, desto komplexer und raffinierter werden die Projekte.

Theoretische kinematik

Grundzüge einer theorie des maschinenwesens--Erläuterungen und zusätze z F. Reuleaux's Kinematik
Author: N.A
Publisher: N.A
ISBN: N.A
Category: Machinery, Kinematics of
Page: 24
View: 871
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Flame Hardening


Author: Hans Wilhelm Grönegress
Publisher: Springer Science & Business Media
ISBN: 3642867219
Category: Technology & Engineering
Page: 64
View: 6400
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This book intended for shop use tries to familiarize the reader with the peculiari ties of a hardening method which due to its many advantages is now in use,many shops. A general knowledge of the principles of hardening and heat treating is presumed. Introduction 1. The name of the process. Flame hardening is a method derived from the old quench hardening and is used for the surface hardening of heat treatable steels. Flame hardening is so named in analogy to flame cutting as the use of a flame is a distinctive feature of this process as opposed to the use of a furnace. 2. Characteristics of flame hardening. In flame hardening the area to be 6 hardened is heated with a burner of large heat capacity (approx. 0.5 · 10 kcaljhr/ meter of flame lengths or 50,000 BTUfhr/inch of flame length) supplied with a mixture of fuel gas and oxygen. The hardening temperature is thus reached in so short a time at the surface that a heat jam is created, that is, more heat is supplied to the surface than can be dissipated to the interior of the workpiece. As the querr ehing takes place immediately after the heating the penetration of the heat to greater depth is prevented and only the outer layer subject to wear is hardened. The core of the workpiece remains unaffected by this heat treatment in cantrast to the other hardening methods where the entire piece is through heated in a furnace.

Kristallmodelle

Symmetriemodelle der 32 Kristallklassen zum Selbstbau
Author: Rüdiger Borchardt,Siegfried Turowski
Publisher: Walter de Gruyter GmbH & Co KG
ISBN: 3486844989
Category: Science
Page: 44
View: 5567
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Dieses Buch ist Teil unserer neuen Datenbank Anorganik Online. Für ein wirkliches Begreifen der Kristalle und ihrer Symmetrien. Modellbaubögen in sieben Farben (pro Kristallsystem eine Farbe) bieten die Möglichkeit, 3-dimensionale Körper, auf denen alle Symmetrieelemente eingezeichnet sind, selbst zusammenzubauen. Eine kurze Einführung, eine übersichtliche Tabelle der 32 Kristallklassen sowie ein Lernkartensystem komplettieren das Heft.

Einführung in die Dynamik


Author: Friedrich Pfeiffer,Thorsten Schindler
Publisher: Springer-Verlag
ISBN: 3642410464
Category: Technology & Engineering
Page: 223
View: 7307
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Eine Einführung in die Grundlagen und Anwendungen der Dynamik mit besonderer Betonung der Schwingungen für Studierende und Praktiker der Ingenieurwissenschaften. Behandelt werden • die Grundgesetze der Kinematik und Kinetik, die Prinzipien von d’Alembert, Jourdain und Hamilton sowie die Lagrange‘schen und Newton-Euler‘schen Bewegungsgleichungen • Lineare diskrete und kontinuierliche Schwingungssysteme, Lösungsverfahren sowie Approximationsmethoden von Ritz und Galerkin, Zeitverhalten, Stabilität • Nichtlineare Mechanik, Lösungsverfahren am Beispiel des Schwingers mit einem Freiheitsgrad, Stabilität • Phänomene der Schwingungsentstehung; fremderregte, parametererregte und selbsterregte Schwingungen Die 3. Auflage dieses gut eingeführten Werks wurde gründlich überarbeitet, didaktisch verbessert und aktualisiert sowie an internationale Anforderungen angepasst.

Journal of Thermophysics and Heat Transfer


Author: N.A
Publisher: N.A
ISBN: N.A
Category: Heat
Page: N.A
View: 2488
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Operations Research

Einführung
Author: Frederick S. Hillier,Gerald J. Liebermann
Publisher: Walter de Gruyter GmbH & Co KG
ISBN: 3486792083
Category: Business & Economics
Page: 868
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Aus dem Vorwort der Autoren: “ bereits in früheren Auflagen sind uns auch bei dieser Auflage der Motivationscharakter und die Einfachheit der Ausführungen wichtiger als exakte Beweise und technische Freiheiten. Wir glauben, dass die vorliegende Auflage für den praxisorientierten Studenten, auch ohne große mathematische Kenntnisse, attraktiver und besser lesbar geworden ist. Dennoch sind wir der Meinung, dass die Theorie der Operations Research nur von der mathematischen Seite her wirklich verstanden und gewürdigt werden kann. Es ist daher auch die fünfte Auflage nach wie vor an den gleichen Leserkreis wie die früheren Auflagen gerichtet, an die Studenten verschiedenster Fachrichtungen (Ingenieurswesen, Wirtschafts- und Sozialwissenschaften sowie mathematische Wissenschaften), die sich manchmal angesichts des riesigen Wortschwalls ihrer Studiengebiete nach einem bißchen mathematischer Klarheit sehnen. Die einzelnen Kapitel lassen sich auf vielfältige Art und Weise zu Kursen oder zum Selbststudium zusammenstellen, da das Buch sehr flexibel angelegt ist. Teil eins liefert eine Einführung in die Thematik des Operations Research. Teil zwei (über lineare Programmierung) und auch Teil drei (über mathematische Programmierung) lassen sich unabhängig von Teil vier (über stochastische Modelle) durcharbeiten.“

Partielle Differentialgleichungen und numerische Methoden


Author: Stig Larsson,Vidar Thomee
Publisher: Springer-Verlag
ISBN: 3540274227
Category: Mathematics
Page: 272
View: 900
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Das Buch ist für Studenten der angewandten Mathematik und der Ingenieurwissenschaften auf Vordiplomniveau geeignet. Der Schwerpunkt liegt auf der Verbindung der Theorie linearer partieller Differentialgleichungen mit der Theorie finiter Differenzenverfahren und der Theorie der Methoden finiter Elemente. Für jede Klasse partieller Differentialgleichungen, d.h. elliptische, parabolische und hyperbolische, enthält der Text jeweils ein Kapitel zur mathematischen Theorie der Differentialgleichung gefolgt von einem Kapitel zu finiten Differenzenverfahren sowie einem zu Methoden der finiten Elemente. Den Kapiteln zu elliptischen Gleichungen geht ein Kapitel zum Zweipunkt-Randwertproblem für gewöhnliche Differentialgleichungen voran. Ebenso ist den Kapiteln zu zeitabhängigen Problemen ein Kapitel zum Anfangswertproblem für gewöhnliche Differentialgleichungen vorangestellt. Zudem gibt es ein Kapitel zum elliptischen Eigenwertproblem und zur Entwicklung nach Eigenfunktionen. Die Darstellung setzt keine tiefer gehenden Kenntnisse in Analysis und Funktionalanalysis voraus. Das erforderliche Grundwissen über lineare Funktionalanalysis und Sobolev-Räume wird im Anhang im Überblick besprochen.