Contents Structural Engineering ................................................3 Geotechnical Engineering ........................................12 Civil Engineering ......................................................18 Transportation Engineering ......................................24 General......................................................................25 Page 3
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Structural Engineering
Durability of Concrete Structures
Dynamics of Structures
An Introduction
Third Edition
Sudhir Misra
Jagmohan L. Humar
Indian Institute of Technology Kanpur
Carleton University, Ottawa, Ontario, Canada
This book is designed as a resource for graduate students studying deterioration resulting from reinforcement corrosion, alkali-aggregate reaction, and cyclic freezing and thawing. This book provides information on causes, implications, prevention, and control. It also covers concepts of non-destructive testing and evaluation, including a brief description of the methods available, their limitations, and interpretation of results obtained. The text also offers a better perspective of nondestructive testing methods and explores the emerging thought of including maintenance and repair of concrete structures in a comprehensive design framework. The book also includes case studies, examples, end-of-chapter problems, a solutions manual, and PowerPoint® slides.
This major textbook provides comprehensive coverage of the analytical tools required to determine the dynamic response of structures. The topics covered include formulation of the equations of motion for single- as well as multi-degree-of-freedom discrete systems using the principles of both vector mechanics and analytical mechanics, free vibration response, determination of frequencies and mode shapes, forced vibration response to harmonic and general forcing functions, dynamic analysis of continuous systems, and wave propagation analysis.
Features: • Provides information on nondestructive testing methods and evaluation • Serves as a reference with a discussion of relevant codal provisions • Includes principal mechanisms of deterioration in concrete structures • Offers case studies, examples, end-of-chapter problems, solutions manual, and PowerPoint slides
Catalog no. K14562, April 2014, c. 320 pp. ISBN: 978-1-4665-0536-0, $129.95 / £82.00
The key assets of the book include comprehensive coverage of both the traditional and state-of-the-art numerical techniques of response analysis, such as the analysis by numerical integration of the equations of motion and analysis through frequency domain. The large number of illustrative examples and exercise problems are of great assistance in improving clarity and enhancing reader comprehension. The text aims to benefit students and engineers in the civil, mechanical, and aerospace sectors.
Selected Contents: Introduction. Formulation of the equations of motion: Single-degree-of-freedom systems. Formulation of the equations of motion: Multi-degree-of-freedom systems. Principles of analytical mechanics. Free vibration response: Single-degree-of-freedom system. Forced harmonic vibrations: Single-degree-of-freedom system. Response to general dynamic loading and transient response. Analysis of single-degree-of-freedom systems: Approximate and numerical methods. Analysis of response in the frequency domain. Free vibration response: Multi-degree-of-freedom system. Numerical solution of the eigenproblem. Forced dynamic response: Multi-degree-of-freedom systems. Analysis of multi-degree-of-freedom systems: Approximate and numerical methods. Formulation of the equations of motion: Continuous systems. Continuous systems: Free vibration response. Continuous systems: Forced-vibration response. Wave propagation analysis. Finite element method. Component mode synthesis. Analysis of nonlinear response. Solutions manual available upon qualifying course adoption
Catalog no. K14402, March 2012, 1058 pp. ISBN: 978-0-415-62086-4, $129.95 / £82.00 Also available as an eBook
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3
Structural Engineering Mechanics of Solids and Structures Second Edition Roger T. Fenner Imperial College London, UK
J. N. Reddy Texas A&M University, College Station, USA Series: Computational Mechanics and Applied Analysis
A popular text in its first edition, Mechanics of Solids and Structures served as a course text for the senior/graduate courses/modules in the mechanics of solid/advanced strength of materials, offered in aerospace, civil, engineering science, and mechanical engineering departments. Now, Mechanics of Solid and Structure, Second Edition presents the latest developments in computational methods that have revolutionized the field, while retaining all of the basic principles and foundational information needed for mastering advanced engineering mechanics. Key changes to the second edition include full-color illustrations throughout, web-based computational material, and the addition of a new chapter on the energy methods of structural mechanics. Using authoritative, yet accessible language, the authors explain the construction of expressions for both total potential energy and complementary potential energy associated with structures. They explore how the principles of minimal total potential energy and complementary energy provide the means to obtain governing equations of the structure, as well as a means to determine point forces and displacements with ease using Castigliano’s Theorems I and II. The material presented in this chapter also provides a deeper understanding of the finite element method, the most popular method for solving structural mechanics problems. Integrating computer techniques and programs into the body of the text, all chapters offer exercise problems for further understanding. Several appendices provide examples, answers to select problems, and opportunities for investigation into complementary topics. Listings of computer programs discussed are available on the CRC Press website.
Catalog no. K12712, June 2012, 705 pp. ISBN: 978-1-4398-5814-1, $129.95 / £82.00 Also available as an eBook
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Solid Mechanics Variational Formulation and High Order Approximation Marco Bittencourt University of Campinas, Brazil
This classroom-tested text incorporates the variational formulation of mechanical models based on the principle of virtual work (PVW). All models are presented following the same sequence of steps, including kinematics, strain measurement, rigid body deformation, internal and external work, equilibrium, constitutive equations, and structural design. This presentation allows readers to establish a logical sequence for treating any mechanical problem. The author offers stepby-step explanations of the limitations and strengths of mechanical models and includes many real-world examples. MATLAB® programs are supplied to run the examples.
Features: • Formulates and approximates solid mechanical models starting from simple cases and proceeding to more complex nonlinear problems • Offers an integrated approach of mechanical models, finite element approximation, and applications using MATLAB • Includes many exercises and real-world examples of mechanical models A solutions manual is available upon qualified course adoption.
Selected Contents: Introduction. Equilibrium of Particles and Rigid Bodies. Bars in Traction and Compression. Shafts with Circular and Noncircular Cross Sections. Beams (Euler-Bernoulli Beam). Beams with Shear Effect (Timoshenko Beam). General Beams. High-Order Shape Functions, Mapping, and Numerical Integration. Plates (Kirchhoff Plate). Plates with Shear Effect (Reissner-Mindlin Plate). Variational Formulation and Approximation of Mechanical Models. Solids. Nonlinear Transient Structural Models.
Catalog no. K12742, May 2013, c. 700 pp. ISBN: 978-1-4398-6001-4, $99.95 / £63.99 Also available as an eBook
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Structural Engineering
Introduction to Structural Analysis Displacement and Force Methods S. T. Mau
Damage to Concrete Structures
California State University, Northridge, USA
Geert De Schutter
Bridging the gap between what is traditionally taught in textbooks and what is actually practiced in engineering firms, Introduction to Structural Analysis: Displacement and Force Methods clearly explains the two fundamental methods of structural analysis: the displacement method and the force method. It also shows how these methods are applied, particularly to trusses, beams, and rigid frames.
Serious degradation mechanisms can severely reduce the service life of concrete structures: steel reinforcement can corrode, cement matrix can be attacked, and even aggregates can show detrimental processes. Therefore, it is important to understand how damage can occur to concrete structures and to appreciate the timing of the actions leading to damage. Damage to Concrete Structures summarizes the state-of-the-art information on the degradation of concrete structures, and gives a clear and comprehensive overview of what can go wrong.
Acknowledging the fact that virtually all computer structural analysis programs are based on the matrix displacement method of analysis, the text begins with the displacement method. A matrix operations tutorial is also included for review and self-learning. To minimize any conceptual difficulty readers may have, the displacement method is introduced with the plane truss analysis and the concept of nodal displacement. The book then presents the force method of analysis for plane trusses to illustrate force equilibrium, deflection, statistical indeterminacy, and other concepts that help readers to better understand the behavior of a structure. It also extends the force method to beam and rigid frame analysis. Toward the end of the book, the displacement method reappears along with the moment distribution and slope-deflection methods in the context of beam and rigid frame analysis. Other topics covered include influence lines, non-prismatic members, composite structures, secondary stress analysis, and limits of linear and static structural analysis. Integrating classical and modern methodologies, this book explains complicated analysis using simplified methods and numerous examples. It provides readers with an understanding of the underlying methodologies of finite element analysis and the practices used by professional structural engineers.
Catalog no. K14511, April 2012, 328 pp. ISBN: 978-1-4665-0416-5, $129.95 / ÂŁ82.00 Also available as an eBook
Ghent University, Belgium
Offering a logical flow, the chapters are ordered according to the chronological timing of the actions leading to concrete damage. The author explains the different actions or mechanisms in a fundamental manner, without too many physical or chemical details, to provide greater clarity and readability. The book describes the different causes of damage to concrete, including inappropriate design, errors during execution, mechanisms occurring during hardening of concrete, and actions or degradation mechanisms during service life (hardened concrete). The degradation mechanisms are illustrated with numerous real-world examples and many drawings and photographs taken of actual structures. Written as a textbook for students as well as a reference for professionals, this easy-to-comprehend book gives readers a deeper understanding of the damage that can occur to concrete during the construction process and service.
Selected Contents: Durability and service life Inappropriate design Errors during casting Actions during hardening Actions during service
Catalog no. Y112528, September 2012, 209 pp. Soft Cover ISBN: 978-0-415-60388-1, $59.95 / ÂŁ35.00 Also available as an eBook
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Structural Engineering Reliability of Structures Second Edition Andrzej S. Nowak University of Nebraska-Lincoln, USA
Kevin R. Collins
Principles of Structure Fifth Edition Ken Wyatt University of New South Wales, Kensington, Australia
University of Cincinnati Blue Ash College, Ohio, USA
Richard Hough
"This is a great book … easy to teach from; students can readily learn the theory from its beginnings to its practical applications; it is a course topic that will be of great value in understanding structural design during the professional life of the engineer; it is an invaluable tool to guide in the development of national design standards such as the AASHTO bridge design specification; it is logical and it is fun to go back to time and again."
Since its first publication in 1974, Principles of Structure has established itself at the forefront of introductory texts for students of architecture, building, and project management seeking a basic understanding of the behavior and design of building structures. It provides a simple quantitative introduction to structural engineering, while also drawing connections to real buildings that are more complex. Retaining the style and format of earlier editions, this Fifth Edition brings the text and examples into alignment with international practice. It also features six new buildings from around the world, illustrating the principles described in the text.
—Theodore V. Galambos, Emeritus Professor, University of Minnesota
This book enables students and practicing engineers to appreciate how to value and handle reliability as an important dimension of structural design. It discusses the concepts of limit states and limit state functions, and presents methodologies for calculating reliability indices and calibrating partial safety factors. It also supplies information on the probability distributions and parameters used to characterize both applied loads and member resistances. This revised and extended second edition contains expanded discussions of U.S. and international codes and Monte Carlo simulation, as well as more examples.
Selected Contents: Introduction Random Variables Functions of Random Variables Simulation Techniques Structural Safety Analysis Structural Load Models Models of Resistance Design Codes System Reliability Uncertainties in the Building Process
Catalog no. Y119676, November 2012, 407 pp. ISBN: 978-0-415-67575-8, $99.95 / £63.99 Also available as an eBook
Arup, Sydney, Australia
The book begins with a chapter explaining forces and their effects. Other chapters cover ties and struts, loadings, graphical statics, bracings, shears and moments, stresses, deflections, and beam design. There is also an appendix with a fuller explanation of fundamentals for readers unfamiliar with the basic concepts of geometry and statics. The book offers a unique format with right-hand pages containing text and left-hand pages containing complementary commentary including explanations and expansions of points made in the text and worked examples. This cross-referencing gives readers a range of perspectives and a deeper understanding of each topic. The simple mathematical approach and logical progression—along with the hints and suggestions, worked examples and problem sheets—give beginners straightforward access to elementary structural engineering.
Selected Contents: Forces, Moments and Equilibrium. Ties and Struts. Loadings on Buildings. Graphical Statics. Pin-Jointed Structures. Bracing of Buildings. Shear Force and Bending Moment. Properties of Area. Bending Stresses. Shear Stresses. Deflections. Design of Beams. Answers to Worksheets. Appendix: A First Encounter with Statics. Index.
Catalog no. Y117502, December 2012, 232 pp. Soft Cover ISBN: 978-0-415-66727-2, $59.95 / £34.99 Also available as an eBook
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Structural Engineering
Structural Mechanics Fundamentals
Structural Engineer’s Pocket Book Eurocodes, Third Edition
Alberto Carpinteri
Fiona Cobb
Politecnico di Torino, Italy
Consulting Engineer, UK
“It is a book useful for advanced-level students, unifying the contents usually one could find in separate textbooks of statics, strength of materials, and engineering mechanics. The book covers the whole spectrum from kinematics and statics of rigid systems to energy methods and failure phenomena. It is a very good complementary advanced textbook.”
Now in its third edition, the Structural Engineer’s Pocket Book remains a comprehensive pocket reference guide for professional and student structural engineers, particularly those taking the IStructE Part 3 exam. The combination of tables, data, facts, formulae, and rules of thumb make it an invaluable aid in scheme design for structural engineers in the office, in transit or on site. By bringing together data from many different sources, this pocket book is a compact source of job-simplifying information at an affordable price. It acts as a reliable first point of reference and saves valuable time otherwise spent trying to track down information that is needed on a daily basis.
—Dr. Michael Sakellariou, National Technical University of Athens (NTUA), Greece
This book is designed as a complete and uniform treatment of the most fundamental and essential topics in structural mechanics. Presenting a traditional subject in an updated and modernized way, this book merges classical topics with ones that have taken shape in more recent times, such as duality: • Geometry of areas • Kinematics and statics of rigid body systems • Determination of constraint reactions • Internal beam reactions • Statically determinate beam systems • Analysis of strain and stress • Theory of elasticity • The Saint Venant problem • Beams and plates in flexure • Statically indeterminate beam systems: method of forces • Energy methods for the solution of beam systems
Concise and precise, this third edition is updated to reflect the industry changeover to the Eurocodes which are used and referenced throughout. Chapters cover all the main structural materials as well as providing basic design data and information on environmental sustainability. The Eurocodes use considerable notation and symbols. The front and back covers include fold-out leaves which summarise the most commonly used symbols for easy reference alongside the main text. This, heavily revised, third edition is not “yet another guide to the Eurocodes.” It is intended as a day-to-day reference and hopes to satisfy a number of different groups of engineers in the transition from British Standards to Eurocodes.
Catalog no. K16062, April 2013, 395 pp. Soft Cover ISBN: 978-0-08-097121-6, $29.00 / £17.00
It can be used as a text for final-year undergraduate or graduate students in structural engineering or even by some architecture students and also serves as a useful reference for practicing engineers and researchers.
Catalog no. Y108407, March 2013, 464 pp. Soft Cover ISBN: 978-0-415-58032-8, $70.00 / £39.99 Also available as an eBook
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Structural Engineering Worked Examples for the Design of Concrete Structures to Eurocode 2
Reinforced and Prestressed Concrete Design to EC2 The Complete Process, Second Edition
Tony Threlfall
Eugene O'Brien
Consulting Engineer, UK
University College, Dublin, Ireland
Packed with worked examples, this practical design guide illustrates how Eurocode 2 may be used in practice. A short introduction outlines the fundamental objectives of design and referring to relevant sources of information for loads and material properties. The book then presents complete and detailed designs of six archetypal structures, civil structures, and buildings. The comprehensive treatment of the variety of structures in the new code makes this a unique and invaluable work.
Features: • Covers a range of structures, not just buildings • Deals fully with the analysis of the structure and the design and detailing of the members • Conforms to the latest standards and recommendations
Selected Contents: Preface The author and acknowledgements
Andrew Dixon Consulting Civil and Structural Engineer, Ireland
Emma Sheils University College, Dublin, Ireland
Concrete is an integral part of twenty-first century structural engineering, and an understanding of how to analyze and design concrete structures is a vital part of training as a structural engineer. With Eurocode legislation increasingly replacing British Standards, it’s also important to know how this affects the way you can work with concrete. Newly revised to Eurocode 2, this second edition retains the original’s emphasis on qualitative understanding of the overall behavior of concrete structures. Now expanded, with a new chapter dedicated to case studies, worked examples, and exercise examples, it is an even more comprehensive guide to conceptual design, analysis, and detailed design of concrete structures.
Multi-storey building
The book provides civil and structural engineering students with complete coverage of the analysis and design of reinforced and prestressed concrete structures. Great emphasis is placed on developing a qualitative understanding of the overall behavior of structures.
Foundations to multi-storey building
Selected Contents:
Free-standing earth-retaining wall
Structural Loading and Qualitative Design: Fundamentals of Qualitative Design. Basic Layout of Concrete. Loads and Load Effects. Preliminary Analysis and Design: Fundamentals of Structural Analysis. Applications of Structural Analysis to Concrete Structures. Preliminary Sizing of Members. Case Studies. Detailed Member Design: Design of Reinforced Concrete Members for Bending. Design of Prestressed Concrete Members for Bending. Combined Axial Force and Bending of Reinforced Concrete Members. Design for Shear and Torsion. Appendices.
Symbols and notes Eurocodes and design actions Design of members
Underground service reservoir Open-top rectangular tank Open-top cylindrical tank Appendices: General information Beam on elastic foundation Rectangular and cylindrical tanks
Catalog no. RU54460, May 2013 Soft Cover ISBN: 978-0-415-46819-0, $69.95 / £35.00
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Catalog no. Y106943, January 2012, 536 pp. Soft Cover ISBN: 978-0-415-57195-1, $59.95 / £34.99
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Structural Engineering Concrete Structures Stresses and Deformations: Analysis and Design for Sustainability, Fourth Edition A. Ghali and M. Elbadry
Principles of Structural Design Wood, Steel, and Concrete Ram S. Gupta
University of Calgary, Alberta, Canada
Roger Williams University, Bristol, Rhode Island, USA
R. Favre
Anyone involved with structural design, whether a student or a practicing engineer, must maintain a functional understanding of wood, steel, and concrete design principles. In covering all of these materials, Principles of Structural Design: Wood, Steel, and Concrete fills a gap that exists in the instructional resources. It provides a self-contained authoritative source that elaborates on the most recent practices together with the code-connected fundamentals that other books often take for granted.
Federal Institute of Technology, Lausanne, Switzerland
Praise for Previous Editions “This is a well-presented book with a well-balanced content. It should be useful to graduate students, research workers and practising engineers, particularly those involved with statistically indeterminate prestressed and composite structures.“ —International Journal of Fatigue
“…a complete and wide-ranging study of the stress and deformations of reinforced concrete, prestressed concrete, partially prestressed concrete and composite beams, slabs and frames. …All in all, this is a worthwhile book for structural design engineers needing to know more about the effects of creep of concrete on the stresses and deformations of structures.” —Canadian Journal of Civil Engineering
This text presents the most effective analysis for predicting the true stresses and deflections of concrete structures, accounting for creep and shrinkage of concrete and relaxation of prestressed reinforcement. Sustainability has become a major requirement in modern structures, which need to sustain satisfactory service over a longer life. It is not rare to specify a life span of 100 years for infrastructure such as bridges. This complete and wide-ranging study of stresses and deformations of reinforced and prestressed concrete structures focuses on design methods for avoiding the deflections and cracking that diminish serviceability. This fourth edition has a new emphasis on designing for serviceability. It has been comprehensively updated. It now includes 65 solved examples and more than 45 instructive problems with answers given at the end of the book. An accompanying website contains design calculation programs, which allow interactive data input. Independent of codes of practice, the book is universally applicable, and is especially suitable for practicing engineers and graduate students.
Catalog no. Y109355, September 2011, 672 pp. ISBN: 978-0-415-58561-3, $174.95 / £111.00
Dr. Ram Gupta, a professional engineer, provides readers with insights garnered over a highly active 40-year international career. Organized for ready reference, the book is divided into four main sections. • Part I covers loads, load combinations, and specific code requirements for different types of loads. It elaborates on the LRFD (load resistance factor design) philosophy and the unified approach to design. • Part II covers sawn lumber, structural glued laminated timber, and structural composite lumber. It reviews tension, compression, and bending members, as well as the effects of column and beam stabilities and combined forces. • Part III considers the steel design of individual tension, compression, and bending members. Additionally, it provides designs for braced and unbraced frames. Open-web steel joists and joist girders are included here as they form a common type of flooring system for steel-frame buildings. • Part IV analyzes the design of reinforced beams and slabs, shear and torsion, compression and combined compression, and flexure in relation to basic concrete structures. This textbook presents the LRFD approach for designing structural elements according to the latest codes. Written for architecture and construction management majors, it is equally suitable for civil and structural engineers.
Catalog no. 73397, August 2010, 488 pp. ISBN: 978-1-4200-7339-3, $129.95 / £83.00 Also available as an eBook
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Structural Engineering Stresses in Beams, Plates, and Shells Third Edition Ansel C. Ugural New Jersey Institute of Technology, Newark, USA Series: Computational Mechanics and Applied Analysis
“Ugural's book thoroughly explains how stresses in beam, plate, and shell structures can be predicted and analyzed.” —Mechanical Engineering, Vol. 132, No. 6, June 2010
Noted for its practical, student-friendly approach to graduate-level mechanics, this volume is considered one of the top references on the subject of elasticity and stress in construction. The author presents many examples and applications to review and support several foundational concepts. The more advanced concepts in elasticity and stress are analyzed and introduced gradually, accompanied by even more examples and engineering applications, in addition to numerous illustrations. Chapter problems are carefully arranged from the basic to the more challenging. The author covers computer methods, including FEA and computational/equation-solving software, and, in many cases, classical and numerical/computer approaches.
Features: • Offers explanations for any mathematics • Includes strong coverage of fundamentals so that students can better understand the mechanics of plates and shells • Provides finite element applications throughout the text to emphasize modern computer techniques • Demonstrates MathCAD programs in the Appendix to show computational software usage Solutions manual available with qualifying course adoption
Selected Contents: Fundamentals: Basic Concepts. Stress Analysis of Simple Members. Plates: Elements of Plate-Bending Theory. Circular Plates. Rectangular Plates. Plates of Various Geometrical Forms. Numerical Methods. Anisotropic Plates. Plates Under Combined Lateral and In-Plane Loads. Large Deflections of Plates. Thermal Stresses in Plates. Shells: Membrane Stresses in Shells. Bending Stresses in Shells. Applications to Pipes, Tanks, and Pressure Vessels. Cylindrical Shells under General Loads. Appendices. Tables. Answers to Selected Problems. Name Index. Subject Index.
Design of Structural Elements Concrete, Steelwork, Masonry and Timber Designs to British Standards and Eurocodes, Third Edition Chanakya Arya University College London, UK
This third edition of a popular textbook is a concise single-volume introduction to the design of structural elements in concrete, steel, timber, masonry, and composites. It provides design principles and guidance in line with both British Standards and Eurocodes, current as of late 2007. Topics discussed include the philosophy of design, basic structural concepts, and material properties. After an introduction and overview of structural design, the book is conveniently divided into sections based on British Standards and Eurocodes.
Features: • Includes in one volume the principles involved in the structural design of reinforced concrete, steelwork, masonry, and timber • Addresses design in line with British Standards and the Eurocodes • Contains more than 100 worked examples and design problems Solutions manual available upon qualifying course adoption
Selected Contents: Introduction to Structural Design: Philosophy of Design. Basic Structural Concepts and Material Properties. Structural Design to British Standards: Design in Reinforced Concrete to BS8110/BS8500. Design in Structural Steelwork to BS5950. Design in Unreinforced Masonry to BS5628, BS EN771, BS EN845 and BS EN998. Design in Timber to BS5268. Part Three: Structural Design to the Eurocodes: The Structural Eurocodes: An Introduction. Eurocode 2: Design of Concrete Structures. Eurocode 3: Design of Steel Structures. Eurocode 6: Masonry Design. Eurocode 5: Timber Design.
Catalog no. RU53909, April 2009, 528 pp. Soft Cover ISBN: 978-0-415-46720-9, $57.95 / £31.99
Catalog no. K10142, August 2009, 596 pp. ISBN: 978-1-4398-0270-0, $146.95 / £94.00 Also available as an eBook
10
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Structural Engineering Construction Materials
Understanding Structures
Their Nature and Behaviour, Fourth Edition
An Introduction to Structural Analysis
Edited by
Purdue University, West Lafayette, Indiana, USA
Peter Domone
Mete A. Sozen
University College London, UK
Toshikatsu Ichinose
John Illston
Nagoya Institute of Technology, Japan
Retired Engineer, UK
This book examines the contribution that material selection makes to sustainable construction practice, considering the availability of raw materials, production, recycling, and reuse. The fourth edition maintains the predecessor’s familiar and accessible format, starting with fundamental principles and continuing with a section on each of the major groups of materials, including metals, concrete, ceramics, polymers, fiber composites, bituminous materials, timber, and glass.
Selected Contents: Fundamentals. Metals and Alloys. Concrete. Bituminous Materials. Masonry: Brickwork and Blockwork. Glass. Polymers. Fibre Composites. Timber. Selection, Use and Sustainability Issues.
An exploration of essential design and construction details of safe structures, this book explains how buildings and bridges resist gravity, wind, and earthquake loads. Employing an interactive presentation of topics, it spans elementary concepts, from force in trusses to bending of beams and the response of multi-story, multi-bay frames. Because simulation is critical to the design and construction of safe structures, this book features free access to GOYA software, which runs easily on JAVA-enabled systems.
Catalog no. 6861X, July 2008, 368 pp. ISBN: 978-1-4200-6861-0, $113.95 / £73.99 Also available as an eBook
Catalog no. RU54644, May 2010, 584 pp. Soft Cover ISBN: 978-0-415-46516-8, $65.95 / £36.99
Structural Analysis
Structural Optimization
Sixth Edition, A Unified Classical and Matrix Approach
Dynamic and Seismic Applications
A. Ghali and T. G. Brown
Missouri University of Science and Technology, Rolla, USA
Franklin Y. Cheng
University of Calgary, Alberta, Canada
Kevin Z. Truman
A. M. Neville
Series: Structural Engineering: Mechanics and Design
Consultant Civil Engineer, UK
This comprehensive textbook combines classical and matrix-based methods of structural analysis and develops them concurrently. The book reviews idealization of loads, anticipated deformations, deflected shapes, and bending moment diagrams. It also demonstrates how to idealize real three-dimensional structures into simplified models that can be analyzed with little or no calculation, or by more involved calculations using computers. Dynamic analysis, essential for structures subject to seismic ground motion, is further developed in this edition and in a code-neutral manner, and the book includes a new chapter on structural reliability analysis.
Catalog no. RU43927, February 2009, 864 pp. Soft Cover ISBN: 978-0-415-77433-8, $78.95 / £41.99
University of Missouri, USA
Today’s biggest structural engineering challenge is to design stronger structures, and a key issue is the need to take an integrated approach that balances control of costs with the requirement for withstanding earthquakes and other dynamic forces. Structural optimization is based on rigorous mathematical formulation and requires computation algorithms for sizing structural elements and synthesizing systems. A thoroughly written and practical book on the topic, this volume comprehensively presents current optimization strategies.
Catalog no. RU43753, June 2010, 728 pp. ISBN: 978-0-415-42370-0, $167.95 / £107.00
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Geotechnical Engineering
Craig's Soil Mechanics Eighth Edition Jonathan Knappett University of Dundee, UK
R.F. Craig University of Dundee, UK
Now in its eighth edition, this bestselling text continues to blend clarity of explanation with depth of coverage to present students with the fundamental principles of soil mechanics. From the foundations of the subject through to its application in practice, Craig’s Soil Mechanics provides an indispensable companion to undergraduate courses and beyond.
New to this edition: • Rewritten throughout in line with Eurocode 7, with reference to other international standards • Restructured into two major sections dealing with the basic concepts and theories in soil mechanics and the application of these concepts within geotechnical engineering design • New topics include limit analysis techniques, in situ testing, and foundation systems • Additional material on seepage, soil stiffness, the critical state concept, and foundation design Also new to this edition is an extensive companion website comprising innovative spreadsheet tools for tackling complex problems, digital datasets to accompany worked examples and problems, and a password-protected solutions manual for lecturers covering the end-of-chapter problems, weblinks, extended case studies, and more.
Pedagogical Features • Learning outcomes and chapter summaries to give each chapter a clear storyline • Glossary of terms, with the first use of each term in the text highlighted in bold • Worked examples identified with grey tinted boxes • Further reading lists at the end of each chapter, annotated for students • End-of-chapter questions for students
Catalog no. Y105176, February 2012, 584 pp. Soft Cover ISBN: 978-0-415-56126-6, $59.95 / £32.99
Analytic Methods in Geomechanics Kam-tim Chau Hong Kong Polytechnic University
A multidisciplinary field encompassing geophysics and civil engineering, geomechanics deals with the deformation and failure process in geomaterials such as soil and rock. Although powerful numerical tools have been developed, analytical solutions still play an important role in solving practical problems in this area. Analytic Methods in Geomechanics provides a much-needed text on mathematical theory in geomechanics, beneficial for readers of varied backgrounds entering this field. Written for scientists and engineers who have had some exposure to engineering mathematics and strength of materials, the text covers major topics in tensor analysis, 2-D elasticity, and 3-D elasticity, plasticity, fracture mechanics, and viscoelasticity. It also discusses the use of displacement functions in poroelasticity, the basics of wave propagations, and dynamics that are relevant to the modeling of geomaterials. The book presents both the fundamentals and more advanced content for understanding the latest research results and applying them to practical problems in geomechanics. The author gives concise explanations of each subject area, using a step-by-step process with many worked examples. He strikes a balance between breadth of material and depth of details, and includes recommended reading in each chapter for readers who would like additional technical information. This text is suitable for students at both undergraduate and graduate levels, as well as for professionals and researchers.
Selected Contents: Elementary Tensor Analysis. Elasticity and Its Applications. Complex Variable Methods for 2-D Elasticity. Three-Dimensional Solutions in Elasticity. Plasticity and Its Applications. Fracture Mechanics and Its Applications. Viscoelasticty and Its Applications. Linear Elastic Fluid-Infiltrated Solids and Poroelasticity. Dynamics and Waves in Geomaterials. Appendices. Selected Biographies. References. Author Index. Subject Index.
Catalog no. K15396, November 2012, 457 pp. Soft Cover ISBN: 978-1-4665-5585-3, $69.95 / £39.99 Also available as an eBook
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Geotechnical Engineering Rock Mechanics Petroleum Reservoir Rock and Fluid Properties
An Introduction
Second Edition
Edith Cowan University, Western Australia
Abhijit Y. Dandekar University of Alaska, Fairbanks, USA
Praise for the First Edition “An absolutely first-class piece of writing…a very full and solid work that is bound to stand as a reliable textbook for the students and an essential reference for engineers. … of inestimable value to the target audience ... enormously valuable...as an immediate on-the-spot reference to those already well immersed in the field. … No one writing about this subject for students in the future will be able to ignore this graceful and probing book so imaginatively organized.”
Nagaratnam Sivakugan James Cook University, Queensland, Australia
Sanjay Kumar Shukla Braja M. Das formerly at California State University, Sacramento, USA
"I think the topics are very relevant for undergraduates … . The topics cover basic rock mechanics and deal with subjects most important to practicing engineers. The content provides a good introduction to anyone who is planning to enter the profession. … It is an excellent book, very useful for engineering undergraduates and graduates. The book is well written and easy to understand, and I am sure it would be a very popular textbook." —Jay Ameratunga, Senior Principal, Coffey Geotechnics Pty Ltd, Newstead, Queensland, Australia
—Current Engineering Practice, Vol. 48, No. 5-6, 2006
A well-balanced presentation of fundamental and practical aspects, this updated book describes various rock and fluid properties using mathematical expressions and laboratory measurement techniques, which illustrate the correlations among properties relevant to reservoir and petroleum engineering. This new edition includes updates to nearly all chapters and new information on unconventional oil and gas resources, low salinity water injection and EOR and wettability changes, and characteristics of heavy oils and bitumen and other fluids. This edition also contains more worked-out equations and problems as well as a solutions manual.
Selected Contents: Introduction. Preamble to Petroleum Reservoir Rock Properties. Porosity. Absolute Permeability. Mechanical and Electrical Properties of Reservoir Rocks. Fluid Saturation. Interfacial Tension and Wettability. Capillary Pressure. Relative Permeability. Introduction to Petroleum Reservoir Fluids. Introduction to Phase Behavior. Phase Behavior of Petroleum Reservoir Fluids. Sampling of Petroleum Reservoir Fluids. Compositional Analysis of Petroleum Reservoir Fluids. PVT Analysis and Reservoir Fluid Properties. Vapor–Liquid Equilibria. Properties of Formation Waters.
Catalog no. K13547, March 2013, 536 pp. ISBN: 978-1-4398-7636-7, $119.95 / £76.99 Also available as an eBook
An understanding of rock mechanics is fundamental to a number of civil engineering applications, including tunneling, foundation engineering, slope stabilization, and mining. Covering the principles of rock mechanics in a simple, accessible manner for those with little or no background, this book is the ideal introduction to the subject. Outlining the basis of rock mechanics and the relevant aspects of engineering geology, this text is an excellent starting point for advanced undergraduates and graduate students focusing on geotechnical, geological, and civil engineering.
Features: • Covers the basics of rock mechanics, including background information on engineering geology • Uses a practical approach with worked examples and references to software • Includes end-of-chapter summaries and review exercises • Provides clear coverage of complex concepts including stereographic projections
Selected Contents: Fundamentals of engineering geology. Spherical presentation of geological data. Rock properties and laboratory testing. Rock mass classification. Strength and deformation characteristics of rock. Rock slope stability. Foundations on rock. Appendix A. Index.
Catalog no. Y132930, December 2012, 254 pp. ISBN: 978-0-415-80923-8, $64.95 / £39.99 Also available as an eBook
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Geotechnical Engineering Open Pit Mine Planning and Design Third Edition, Two-Volume Pack with CD-ROM William A. Hustrulid University of Utah, Salt Lake City, USA
Mark Kuchta Colorado School of Mines, Golden, USA
Randall K. Martin R.K. Martin and Associates, Denver, USA
Open Pit Mine Planning and Design is an outstanding textbook designed for courses in surface mine design, open pit design, geological excavation engineering, and advanced open pit mine planning and design. The step-by-step introduction to mine design and planning enables a fast-track approach to the matter by undergraduate and graduate students. The excellent, user-friendly software guides the student through the planning and design steps, and the drillhole data sets allow the student to practice the described principles in various mining properties case examples. The large number of illustrative examples and case studies, together with the exercises and the reference lists at the end of each chapter, provide the student with all the material needed to study effectively the theory and application methods of open pit mine planning and design. Volume One: Fundamentals covers the fundamental concepts involved in the planning and design of open pit mines. Subjects covered include mine planning, mining revenues and costs, orebody description, geometrical considerations, pit limits, production planning, mineral resources and ore reserves, responsible mining, blasting, drilling, loading, hauling and equipment availability, and utilization. Volume Two: CSMine Software Package deals with CSMine, a user-friendly mine planning and design software that was developed specifically to illustrate the principles involved when applied in practice. It includes CSMine software, a CSMine tutorial, MicroModel user's guide and tutorial and various orebody case examples. Although intended as student course material, many practitioners have used it as a practical reference guide. This third edition has been wholly revised, updated, and significantly expanded.
Catalog no. K16679, February 2013, 1500 pp. Pack - Book and CD ISBN: 978-1-4665-7512-7, $139.95 / £89.00
Design Analysis in Rock Mechanics Second Edition William G. Pariseau University of Utah, Salt Lake City, USA
Developed for a complete class in rock engineering, Design Analysis in Rock Mechanics, Second Edition uniquely combines the design of surface and underground rock excavations. Explanatory and illustrative in character, this volume is suited for courses in rock mechanics, rock engineering, and geological engineering design for undergraduate and first-year graduate students in mining, civil engineering, and applied earth sciences. Moreover, it will form a good introduction to the subject of rock mechanics for earth scientists and engineers from other disciplines.
Features: • Contains example problems and a selection of homework problems at the end of each chapter that reinforce design principles described in the text • Builds on a foundation of mechanics of materials that almost all undergraduate engineers study • Presents material suitable for a variety of engineering disciplines concerned with rock excavation, including civil, geological, and mining engineering • Combines design of surface and underground rock excavations for civil and mining engineering purposes and negates the need for two or more separate texts in any complete class on rock engineering • Offers a companion solution manual available for engineers engaged in self-study as well as for classroom instructors in a university setting • Uses both metric and imperial units Solutions manual available with qualifying course adoption
Selected Contents: Introduction. Slope Stability. Shafts. Tunnels. Entries in Stratified Ground. Pillars in Stratified Ground. Three-Dimensional Excavations. Subsidence. Dynamic Phenomena. Appendix A: Background Literature. Appendix B: Mechanical Properties of Intact Rock and Joints. Appendix C: Rock Mass Classification Schemes for Engineering. Appendix D: Some Useful Formulas.
Catalog no. K13049, September 2011, 698 pp. ISBN: 978-0-415-89339-8, $93.95 / £59.99 Also available as an eBook
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Geotechnical Engineering
Geological Engineering Luis Gonzalez de Vallejo Universidad Complutense de Madrid, Spain
Mercedes Ferrer
Practical Engineering Geology
Instituto Geológico y Minero de España, Madrid
Steve Hencher
“Looking through the book and thinking of the huge effort required to obtain all the information, followed by processing it so that the ideas and data can be presented with such clarity, and then to actually write the book and prepare the selfexplanatory diagrams is truly more than impressive: it is an outstanding achievement. Another excellent feature is that it is simultaneously an undergraduate, postgraduate, and practical book.”
Covering a range of roles and challenges that face an engineering geologist, Steve Hencher outlines the fundamental role of engineering geology in civil engineering projects and assesses the various tools that an engineering geologist brings to such a project. The book is illustrated with a number of case studies and provides reference tables of parameters and properties. This is an ideal reference for practicing engineering geologists and graduate-level students of engineering geology.
—John A. Hudson, Emeritus Professor, Imperial College, UK; Past-President, International Society for Rock Mechanics, 2007-2011
A thorough knowledge of geology is essential in the design and construction of infrastructures for transport, buildings, and mining operations; while an understanding of geology is also crucial for those working in urban, territorial, and environmental planning and in the prevention and mitigation of geohazards.
University of Leeds, UK
Features: • Describes the role of the engineering geologist in the civil engineering industry • Contains practical guidance in a “cook book” style, with simple thumbnail sketches and illustrations • Contains new source data and example methodologies • Rich in up-to-date case studies
Geological Engineering provides an interpretation of the geological setting, integrating geological conditions into engineering design and construction, and provides engineering solutions that take into account both ground conditions and environment.
Selected Contents:
As well as being a textbook for graduate and postgraduate students and academics, Geological Engineering serves as a basic reference for practicing engineering geologists and geological and geotechnical engineers, as well as civil and mining engineers dealing with design and construction of foundations, earth works and excavations for infrastructures, buildings, and mining operations.
Site Investigation
CD-ROM with all illustrations available upon qualifying course adoption
Conversion Factors
Catalog no. SW3524, January 2011, 700 pp. ISBN: 978-0-415-41352-7, $119.95 / £76.99 Also available as an eBook
Engineering Geology Introduction to Civil Engineering Projects Geology and Ground Models Geotechnical Parameters Analysis Design and Construction Unexpected Ground Conditions and How to Avoid Them Appendices: Training, Institutions and Societies Soil and Rock Terminology for Description and Classification for Engineering Purposes Examples of Borehole and Trial Pit Logs Tunnelling Risk
Catalog no. RU54405, January 2012, 464 pp. Soft Cover ISBN: 978-0-415-46909-8, $79.95 / £45.00 Also available as an eBook
For more information and complete contents, visit www.crctextbooks.com
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Geotechnical Engineering
Soil Mechanics Fundamentals Isao Ishibashi
Introduction to Tunnel Construction David Chapman and Nicole Metje
Old Dominion University, Norfolk, Virginia, USA
University of Birmingham, UK
Hemanta Hazarika
Beton- und Monierbau GmbH, Austria
Kyushu University, Japan
Comprehensive and introductory, this textbook covers all basic fundamental concepts of soil mechanics. It delineates how soil behaves, why it behaves that way, and the engineering significance of such behavior. The text explains the various behaviors of soils based on mathematics, physics, and chemistry in a simple but complete manner. The authors include essential engineering equations to emphasize the importance of fundamentals, and 180 exercise problems and solutions to aid with application.
Catalog no. K12080, December 2010, 342 pp. ISBN: 978-1-4398-4644-5, $83.95 / £52.99 Also available as an eBook
Alfred Stärk Tunnelling provides a robust solution to a variety of engineering challenges. It is a complex process, which requires a firm understanding of the ground conditions as well as structural issues. This book covers the whole range of information that tunnel engineers need to know. Coverage includes hard-rock and softground conditions; site investigation, parameter selection, and design considerations; methods of improving the stability of the ground and lining techniques; health and safety considerations; and monitoring of tunnels during construction. It also includes a number of case studies of real tunnel projects to demonstrate how the theories apply in practice.
Catalog no. RU54384, May 2010, 416 pp. Soft Cover ISBN: 978-0-415-46842-8, $78.95 / £41.99
Single Piles and Pile Groups Under Lateral Loading
Soil Physics with HYDRUS
Second Edition
David E. Radcliffe
Lymon C. Reese University of Texas, Austin, USA
William F. Van Impe Laboratory of Geotechnics, Ghent University, Belgium
This book presents procedures for designing the piles and pile groups—a problem that can only be solved by accounting for the soil resistance as related to the lateral deflection of the pile. This book guides the designer into finding the critical loads, either causing a pile to be overloaded or causing too much lateral deflection. Complex equations are derived and explained, and computer programs are used to solve the equations. Simplified versions of the two required programs are presented on a CD-ROM.
Catalog no. Y008701, January 2011, 508 pp. Pack ISBN: 978-0-415-46988-3, $129.95 / £83.00
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Modeling and Applications University of Georgia, Athens, USA
Jiri Simunek University of California, Riverside, USA
Co-authored by Dr. Jirka Šimůnek, creator of HYDRUS, this volume demonstrates two- and three-dimensional simulations and computer animations of numerical models using the popular software. Classroom-tested at the University of Georgia, this volume includes numerous examples and homework problems. It provides students with access to the base HYDRUS program as well as the Rosetta Database, which contains large volumes of information on the hydraulic properties of soils.
Catalog no. 7380X, May 2010, 388 pp. ISBN: 978-1-4200-7380-5, $109.95 / £69.99 Also available as an eBook
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Geotechnical Engineering
Foundations of Engineering Geology
Geology
Third Edition
Basics for Engineers
Tony Waltham
Aurele Parriaux
Retired from Nottingham Trent University, UK
Federal Institute of Technology (EPFL), Lausanne, Switzerland
In full color, the third edition of this well-established book provides a readable and highly illustrated overview of the aspects of geology that are most significant to civil engineers. Each topic is presented as a double page spread with a careful mix of text and diagrams, with tabulated reference material on parameters such as bearing strength of soils and rocks. This book covers the entire spectrum of topics of interest for both students and practitioners in the field of civil engineering.
Geology: Basics for Engineers presents the physical and chemical characteristics of the Earth, the nature of rocks and their interaction with water, and the processes that have created the Earth as we know it. The book shows engineers how to take geological conditions into account, explores a wide range of resources, and explains how to manage them in an intelligent way. Through a problem-based learning approach, this instructional text imparts knowledge and practical experience to engineering students and practitioners in the fields of civil engineering, environmental engineering, earth sciences, and architecture.
Catalog no. RU54661, April 2009, 104 pp. Soft Cover ISBN: 978-0-415-46960-9, $33.95 / £20.50
Catalog no. SW6165, August 2009, 590 pp. Soft Cover ISBN: 978-0-415-46165-8, $115.95 / £73.99 Also available as an eBook
Fundamental Concepts of Earthquake Engineering
Offshore Geotechnical Engineering
Roberto Villaverde
Mark Randolph and Susan Gourvenec
University of California, Irvine, USA
University of Western Australia, Perth
This comprehensive resource is a great aid to those professionals tasked with mitigating the effects of catastrophic earthquakes. It presents modern concepts and valuable procedures, code provisions, and seismic hazard assessment techniques used to make structures as earthquake-resistant as possible. The author details the main aspects and historical development of earthquake engineering with regard to various types and levels of damage. He also details earthquake generation and propagation mechanisms and scales used to quantify earthquake size and damage potential.
Due to fundamental differences in construction and installation techniques, offshore geotechnical engineering has grown as a specialty. The early chapters of this critical volume provide a brief overview of the marine environment, offshore site investigation techniques, and interpretation of soil behavior. The book then examines the geotechnical design of piled foundations, shallow foundations, and anchoring systems. Using a multidisciplinary approach, the book also examines the design of mobile drilling rigs, pipelines, and geohazards. The final section explores general concepts surrounding design and reliability in the offshore environment.
Catalog no. 64959, January 2009, 960 pp. ISBN: 978-1-4200-6495-7, $146.95 / £94.00 Also available as an eBook
Catalog no. RU55596, March 2011, 550 pp. ISBN: 978-0-415-47744-4, $146.95 / £94.00
For more information and complete contents, visit www.crctextbooks.com
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Civil Engineering Essentials of Offshore Structures Theory and Applications
Coastal Engineering Processes, Theory and Design Practice Dominic Reeve University of Swansea, UK
D.V. Reddy Florida Atlantic University, Boca Raton, USA
Andrew Chadwick
A.S.J. Swamidas
Christopher Fleming
Memorial University, St. Johns, Newfoundland, Canada
Halcrow Group Ltd., Swindon, UK
Compiled by leading experts, this text details the new and longstanding methods used for analyzing offshore structures. It details the latest procedures for computing wind, wave, current, tide, and seismic effects. With an emphasis on risk-based analysis, the authors consider construction style and materials choices as well as environmental factors, especially seabed soils. Covering both theory and applications, this text provides more than 200 illustrations and includes practical problems with worked solutions at the end of each chapter.
Praise for the Previous Edition
Features: • Presents theory, solutions, and useful visual illustrations of offshore structures • Provides samples of current structures mixed with typical older ones • Illustrates holistic behavior of offshore structure components • Provides current analytical background in force modeling for wind, wave, current, ice, and seismic forces • Covers seabed soil characteristics, materials, corrosion, risk analysis, design codes, and more • Includes sample problems
Selected Contents: Offshore Operations and Structural Development. Components of a Typical Offshore Structure. Ocean Environment – Wind, Wave, Current, Tides, Ice and Seismic Effects. Seabed Mechanics. Materials and Their Behavior in the Ocean Environment. Environmental Forces on Offshore Structures. Fundamental Considerations for Offshore Structures. Analysis of Framed Steel Offshore Structures. Gravity Concrete Structures Analysis. Compliant Structural Analysis. Semi-submersibles and Station-keeping. Submerged and Structure Analysis. Offshore Pipeline Analysis. Manmade OffshoreIslands and Analysis. Higher Aspects of Offshore Structural Analysis.
University of Plymouth, UK
“The extent of coverage is impressive. As well as being a useful reference book in its own right, it is extremely useful to have a single starting-point for graduates... the book is well structured and easy to use.” —S. Sinclair, Maritime Engineering
Historically, much harm has been done by wellmeaning coastal engineering attempts, which seemed like good ideas on paper but which failed to allow for practical issues. For this reason, it is vital that theories and models are well grounded in practice. This second edition brings the models and examples of practice up to date. It has expanded coverage of tsunamis and generating energy from waves to focus both on the great dangers and the great opportunities that the ocean presents to the coastal zone. With an emphasis on practice and detailed modeling, this is a thorough introduction to all aspects of coastal processes, morphology, and design of coastal defenses. It describes numerous case studies to illustrate the successful application of mathematical modeling to real-world practice.
Features: • Views the subject from a practical angle, rather than taking the theoretical approach used by most other books on the market • Offers expanded coverage of tsunamis and wave forces • Brings material up to date to reflect current practice • Includes more illustrations and examples
Catalog no. Y108969, December 2011, 552 pp. Soft Cover ISBN: 978-0-415-58353-4, $59.95 / £36.99
Catalog no. 68822, May 2013, c. 600 pp. ISBN: 978-1-4200-6882-5, $129.95 / £82.00 Also available as an eBook
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Civil Engineering
Integrated Design and Cost Management for Civil Engineers Andrew Whyte Curtin University of Technology, Australia
To succeed as a civil engineer, you need to be able to provide clients with practical solutions to their problems. Not only does the solution need to be effective, it also needs to be cost effective. Using case studies to illustrate principles and processes, this book is a guide to designing, costing, and implementing a civil engineering project to suit a client’s brief. It emphasizes correctly quantifying and planning works to give reliable cost estimates to minimize your risk of losing business through over-costing or losing profits through under-costing. It also outlines how to make sure you meet the necessary local ethical and legal requirements. The main territories covered are Australia, New Zealand, the UK, South East Asia, and the Commonwealth countries, although the principles are internationally relevant.
Forensic Engineering Fundamentals Harold Franck Advanced Engineering Associates, St. Petersburg, Florida, USA
Darren Franck Advanced Engineering Associates, Charleston, West Virginia, USA
Forensic engineers often specialize in a particular area, but the nature of the work often requires broad knowledge in physics, chemistry, biomechanics, and engineering. Covering cases as varied as assessment of workplace accidents to the investigation of Halliburton in the BP oil spill, this volume is a comprehensive introduction to the many diverse facets of the field. Offering real-world experience drawn from the authors’ 25 years of experience, this volume assists newcomers to the field in understanding the engineering basics underlying the cases they will encounter.
Catalog no. K13659, December 2012, 487 pp. ISBN: 978-1-4398-7839-2, $129.95 / £82.00 Also available as an eBook
Guiding you through the complete process of project design, costing, and tendering, this book is the ideal bridge between studying civil engineering and practicing in a commercial context.
Selected Contents: Introduction Design of Civil Engineering Infrastructure Civil Engineering Ethics Compliance and Negligence Avoidance Cost Management of Civil Engineering Designs and Construction Methodologies Overview of the Civil Engineering Process to Satisfy the Client’s Brief
Catalog no. Y132927, August 2013, 288 pp. Soft Cover ISBN: 978-0-415-80921-4, $54.95 / £34.99
Geomatics Engineering A Practical Guide to Project Design Clement A. Ogaja California State University, Fresno, USA
This nuts-and-bolts resource examines key components and aspects of land surveying and geomatics projects. It reviews the experience of past projects and identifies priority areas of attention for planning new projects. Ideal for students, the text guides readers through the project design and request-for-proposal process commonly used for soliciting professional geomatics engineering services. The author provides an understanding of professional and ethical responsibility, the impact of engineering solutions in a global and social context, and a host of other contemporary issues such as budgetary and scheduling constraints.
Catalog no. K10904, September 2010, 296 pp. ISBN: 978-1-4398-1743-8, $109.95 / £69.99 Also available as an eBook
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Civil Engineering Introduction to Composite Materials Design Second Edition Ever J. Barbero
Water Technology
West Virginia University, Morgantown, USA
Third Edition
Series: Composite Materials: Design and Analysis
Trinity College Dublin, Ireland
Completely revised and updated, this second edition of a bestseller contains new chapters on damage mechanics, fabric reinforced composites, and external strengthening for infrastructure. It covers design aspects such as fiber and matrix selection, fabrication processes, prediction of material properties, and structural analysis and design of beams, plates, and shells, including many fully developed examples. Instructional materials (including PowerPoint slides), special software coordinated with the book, and other pedagogical tools are available.
Catalog no. 79158, July 2010, 562 pp. ISBN: 978-1-4200-7915-9, $109.95 / £69.99 Also available as an eBook
City Planning for Civil Engineers, Environmental Engineers, and Surveyors Kurt W. Bauer SE Wisconsin Regional Planning Commission, USA
An introduction to land-use planning, this book covers infrastructure systems planning and development. It stresses basic concepts and the most widely practiced principles involved in urban planning, particularly in small- and medium-sized communities. It also presents zoning, land subdivision control, and official mapping, as well as factors in good land subdivision design and improvement. The text illustrates the importance of proper mapping and control surveys for planning. Written from the perspective that cities are social and economic as well as physical entities, it offers a historical context for urban planning.
N. F. Gray Water has become one of the most important issues of our time. Water Technology is an accessible textbook that introduces the key concepts of water technology by explaining the fundamentals of hydrobiology, aquatic ecosystems, water treatment and supply, and wastewater treatment. Nick Gray uses the Water Framework Directive as the unifying theme in this edition. This text provides a complete introduction to all aspects of managing the hydrological cycle and is ideal for those interested in a career in the water industry.
Catalog no. Y129636, July 2010, 768 pp. Soft Cover ISBN: 978-1-85617-705-4, $69.95 / £41.99
Construction Materials Their Nature and Behaviour, Fourth Edition Edited by
Peter Domone University College London, UK
John Illston Retired Engineer, UK
This book examines the contribution that material selection makes to sustainable construction practice, considering the availability of raw materials, production, recycling, and reuse. The new edition maintains the predecessor’s familiar and accessible format, starting with fundamental principles and continuing with a section on each of the major groups of materials, including metals, concrete, ceramics, polymers, fiber composites, bituminous materials, timber, and glass.
Catalog no. RU54643, May 2010, 584 pp. ISBN: 978-0-415-46515-1, $167.95 / £107.00
Catalog no. K10440, September 2009, 368 pp. ISBN: 978-1-4398-0892-4, $99.95 / £64.99
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Dams & Hydraulic Engineering Hydraulics in Civil and Environmental Engineering Fifth Edition Andrew Chadwick University of Plymouth, UK
John Morfett Retired University Lecturer, Glastonbury, UK
Martin Borthwick University of Plymouth, UK
This classic text, now in its fifth edition, combines thorough coverage of the basic principles of civil engineering hydraulics with a wide-ranging treatment of practical, real-world applications. It is carefully structured into two parts to deal with principles before moving on to more advanced topics. The first part focuses on fundamentals, including hydrostatics, hydrodynamics, pipe and open channel flow, wave theory, physical modeling, hydrology, and sediment transport. The second part illustrates the engineering applications of these fundamental principles to pipeline system design, hydraulic structures, river, and coastal engineering, including up-to-date environmental implications and a chapter on computational modeling, illustrating the application of computational simulation techniques to modern design, in a variety of contexts. This edition includes substantive revisions of the chapters on hydraulic machines, flood hydrology, and computational modeling. New material has also been added to the chapters on hydrostatics, principles of fluid flow, behavior of real fluids, open channel flow, pressure surge in pipelines, wave theory, sediment transport, river engineering, and coastal engineering. The latest recommendations regarding climate change predictions, impacts, and adaptation measures are also included. Updating of necessary references has been undertaken throughout. Hydraulics in Civil and Environmental Engineering is an essential resource for students and practitioners of civil, environmental, and public health engineering, and associated disciplines. It is comprehensive, fully illustrated and contains many examples. A solutions manual, spreadsheet listings, and useful links to other web pages are available on an accompanying website.
Fundamentals of Wastewater Treatment and Engineering Rumana Riffat George Washington University, Washington, D.C., USA
As the world’s population has increased, sources of clean water have decreased, shifting the focus toward pollution reduction and control. Disposal of wastes and wastewater without treatment is no longer an option. Fundamentals of Wastewater Treatment and Engineering introduces readers to the essential concepts of wastewater treatment, as well as the engineering design of unit processes for the sustainable treatment of municipal wastewater. Filling the need for a textbook focused on wastewater, this book first covers history, current practices, emerging concerns, and pertinent regulations and then examines the basic principles of reaction kinetics, reactor design, and environmental microbiology, along with natural purification processes. The text also details the design of unit processes for primary, secondary, and advanced treatment as well as solids processing and removal. Using detailed calculations, it discusses energy production from wastewater. Comprehensive and accessible, the book addresses each design concept with the help of an underlying theory, followed by a mathematical model or formulation. Worked-out problems demonstrate how the mathematical formulations are applied in design. Throughout, the text incorporates recent advances in treatment technologies. Based on a course taught by the author for the past 18 years, the book is designed for undergraduate and graduate students who have some knowledge of environmental chemistry and fluid mechanics. Readers will get a strong grounding in the principles and learn how to design the unit processes used in municipal wastewater treatment operations. Professionals in the wastewater industry will also find this a handy reference.
Catalog no. Y117901, August 2012, 359 pp. ISBN: 978-0-415-66958-0, $89.95 / ÂŁ57.99 Also available as an eBook
Catalog no. Y119151, March 2013, 616 pp. Soft Cover ISBN: 978-0-415-67245-0, $99.95 / ÂŁ39.99 Also available as an eBook
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Dams & Hydraulic Engineering
Urban Flood Management Chris Zevenbergen, Adrian Cashman, Niki Evelpidou, Erik Pasche, Stephen Garvin, and Richard Ashley This textbook integrates the expertise from disciplines such as hydrology, sociology, architecture, urban design, construction, and water resources engineering. The subject is approached from an international perspective and various case studies, exercises, expert advice, and literature recommendations are included to support the theory and illustrations. Developed by a team of specialists, this volume is intended for urban flood management education of hydrology, geography, civil and environmental engineering, and management students at university level. Moreover, professionals will find this book useful as a reference. A supporting website can be addressed for current information.
Urban Drainage Third Edition David Butler University of Exeter, UK
John Davies Coventry University, UK
This established textbook covers the environmental and engineering aspects involved in the drainage of rainwater and wastewater. Thoroughly revised and updated to reflect changes in the practice and priorities of urban drainage, this edition includes material on sewer flooding, the impact of climate change, flooding models, and the emergence of sustainability. It draws on real-world examples and models to demonstrate the key issues facing engineers and deals with the design of new systems and the analysis and upgrading of existing infrastructure.
Catalog no. RU54651, July 2010, 656 pp. Soft Cover ISBN: 978-0-415-45526-8, $65.95 / £36.99
Each chapter has three parts: 1. Theory and background information: This constitutes the main body of each chapter. It provides the reader with the background material and, where appropriate, an introduction to the theory. 2. Learning objectives and key questions: Besides theoretical and practical background to each subject, each chapter sets out what the main learning objectives are and poses a number of questions and points for the reader to consider. 3. Case studies and anecdotes: There is a large collection of additional information in the form of case studies. These illustrate through practical examples some of the real-world difficulties associated with the chapter’s subject matter.
Selected Contents: Setting up The Framework: Setting The Stage for Integrated Urban Flood Management. Urban Floods. Drivers for Change: Urbanization. Climate Change: Key Uncertainties and Robust Findings. Urban Flood Risk: Hydrology of Cities. Urban Flood Risk Assessment. Responses: Responding To Flood Risk. Urban Drainage Systems. Flood Proofing the Urban Fabric. Enhancing Coping and Recovery Capacity. Towards Flood Resilient Cities: Managing For Resiliency. Capacity Building and Governance. Shelter for All.
Catalog no. K10973, September 2010, 340 pp. Soft Cover ISBN: 978-0-415-55944-7, $99.95 / £62.99
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Hydrology in Practice Fourth Edition Elizabeth M. Shaw, Keith J. Beven, Nick A. Chappell, and Rob Lamb This fourth edition, while retaining the successful qualities of its predecessor, replaces the material on the Flood Studies Report with an equivalent section on the methods of the Flood Estimation Handbook. This edition draws on the expertise of Keith J. Beven and Nick A. Chappell, who have extensive experience in field hydrological studies in a variety of different environments and have taught undergraduate hydrology courses for many years. Topical case studies further enhance the text.
Catalog no. RU53848, July 2010, 560 pp. Soft Cover ISBN: 978-0-415-37042-4, $65.95 / £36.99
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Dams & Hydraulic Engineering Recursive Streamflow Forecasting
Hydraulic Modelling – An Introduction
A State-Space Approach
Principles, Methods and Applications
József Szilágyi
Pavel Novak
Budapest University of Technology and Economics, Hungary and University of Nebraska-Lincoln, USA
formerly at University of Newcastle-upon-Tyne, UK
András Szöllösi-Nagy
Vincent Guinot University of Montpellier, France
UNESCO-IHE Institute for Water Education, Delft, The Netherlands
Alan Jeffrey
A practical guide to real-time streamflow forecasting, this book provides a rigorous description of a coupled stochastic and physically based flow routing method and its practical applications. Providing real-life case examples and problem listings, the book teaches hydrology and civil engineering students and waterresources practitioners the physical forecasting model and then enables them to apply it directly in real-life problems involving streamflow simulation and forecasting. Designed as a text for courses on hydroinformatics and water management, this book includes exercises.
Dominic E. Reeve
Catalog no. K10976, June 2010, 212 pp. Soft Cover ISBN: 978-0-415-56901-9, $87.95 / £56.99 Also available as an eBook
University of Newcastle-upon-Tyne, UK University of Swansea, UK
“This book should definitely find its place in all libraries concerned with hydraulics, hydroinformatics, and modelling. It certainly should be available in their respective institutions to all engineers who are involved in modelling or are using results of models. And it should be advised as essential reading to students at postgraduate level in hydraulics and hydroinformatics.” —Jean A. Cunge, Journal of Hydroinformatics
Catalog no. RU51414, January 2010, 616 pp. Soft Cover ISBN: 978-0-419-25020-3, $83.95 / £36.99
Ninth Edition
Environmental and Hydrological Systems Modelling
John Ward-Smith
A. W. Jayawardena
Formerly Brunel University, UK
The University of Hong Kong
This ninth edition of a bestseller develops a sound physical understanding of fluid flow, focusing on engineering applications rather than mathematical techniques. The text gradually introduces the subject, building on simple, familiar information to convey more complex content. It examines the modern context of fluid mechanics and associated issues including climate change, new forms of energy generation, and fresh water conservation. Essential for graduate-level courses in civil, mechanical, aeronautical, and chemical engineering, this book will also be a great aid to professionals.
Providing the tools students and professionals need, this book details different approaches to modeling the water environment over a range of spatial and temporal scales. Their applications are shown with a series of case studies, taken mainly from the Asia-Pacific Region. Topics include linear systems, conceptual models, data driven models, process-based models, risk-management models, model parameter estimation as well as model calibration, validation, and testing.
Mechanics of Fluids
Catalog no. Y112274, August 2011, 720 pp. Soft Cover ISBN: 978-0-415-60260-0, $62.95 / £41.99
Catalog no. RU54409, August 2013, 520 pp. Soft Cover ISBN: 978-0-415-46532-8, $99.95 / £45.00 Also available as an eBook
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General
Principles and Practice, Second Edition
Statistical and Econometric Methods for Transportation Data Analysis
Rajib B. Mallick and Tahar El-Korchi
Simon P. Washington
Pavement Engineering
Second Edition
Worcester Polytechnic Institute, Massachusetts, USA
Queensland University of Technology, Brisbane, Australia
Covering the entire range of pavement construction, from soil preparation to structural design, life-cycle costing, and analysis, this book integrates the concepts of mix and structural design, emphasizing pavement evaluation and rehabilitation techniques. State-of-the-art content introduces the latest concepts, including ground-penetrating radar and seismic testing, legal issues and sustainability, and smart sensors. Fully updated with 75 new images and figures, this new edition covers designs and examples of drainage structures, as well as methods used in forensic investigation to determine type and cause of distress, and collection of environmental data for proper design considerations.
Matthew G. Karlaftis
Features:
National Technical University of Athens, Greece
Fred L. Mannering Purdue University, West Lafayette, Indiana, USA
With many examples and case studies covering transportation planning, engineering, safety, and economics, this update of a bestseller provides an understanding of a broad range of analytical tools required to solve transportation problems. This second edition includes new chapters on logistic regression, ordered probability models, random-parameter models, and Bayesian statistical modeling. It also offers an explicit treatment of frequency domain time series analysis, including Fourier and wavelets analysis methods. Data sets and PowerPoint® and Word presentations are available online.
• Presents new information on sustainable pavements, including materials, construction practices, and maintenance • Adds a new chapter on legal issues, addressing liability of highway departments and contractors, risk assessment, and relevant environmental laws • Includes new coverage of smart sensors embedded in paving equipment, such as rollers to monitor compaction • Expands coverage of forensic investigations for determination of type and cause of distress, as well as determination of rehabilitation methods
Catalog no. C285X, December 2010, 544 pp. ISBN: 978-1-4200-8285-2, $104.95 / £69.99
Selected Contents:
Eun Sug Park
Function and Use of Pavements. General Description of Pavements and Questions. Principles of Mix and Structural Design of Pavement. Standards. Traffic on Asphalt and Concrete Pavements. Environmental Effects on Asphalt and Concrete Pavements. Soil. Aggregates for Asphalt and Concrete Mixes. Asphalt and Emulsions. Concrete Fundamentals for Rigid Pavements. Distress and Performance. Mix Design and Structural Design for Asphalt Pavements. Mix Design and Structural Design for Concrete Pavements. Construction of Asphalt Pavements. Construction of Concrete Pavements. Rehabilitation of Asphalt Pavements. Rehabilitation of Concrete Pavements. Laboratory Tests for Soils. Laboratory Tests for Aggregates for Asphalt and Concrete Mixes. Laboratory Tests for Asphalt. Laboratory Tests for Cement. Laboratory Tests for Asphalt Mixes. Laboratory Tests for Concrete. Nondestructive Tests. Life Cycle Costs and Cost Saving Concepts. Examples and Case Histories. Instrumentation in Asphalt and Concrete Pavement. Specialty Applications. Research on Pavements. Catalog no. K13237, April 2013, c. 696 pp. ISBN: 978-1-4398-7035-8, $119.95 / £76.99 Also available as an eBook
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Also available as an eBook
Transportation Statistics and Microsimulation Clifford Spiegelman Texas A&M University, College Station, USA Texas Transportation Institute, College Station, USA
Laurence R. Rilett University of Nebraska-Lincoln, USA
By discussing statistical concepts in the context of transportation planning and operations, this text provides the necessary background for making informed transportation-related decisions. It explains the why behind standard methods and uses real-world transportation examples and problems to illustrate key concepts. The book covers the statistical techniques most frequently employed by transportation and pavement professionals. To familiarize readers with the underlying theory and equations, it contains problems that can be solved using SAS’s JMP package, which enables users to interactively explore and visualize data.
Catalog no. K10032, October 2010, 383 pp. ISBN: 978-1-4398-0023-2, $59.95 / £38.99 Also available as an eBook
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General
Fundamentals of Electrical Engineering Charles A. Gross and Thaddeus A. Roppel Auburn University, Alabama, USA
Real-world engineering problems are rarely, if ever, neatly divided into mechanical, electrical, chemical, civil, and other categories. Engineers from all disciplines eventually encounter computer and electronic controls and instrumentation, which require at least a basic knowledge of electrical and other engineering specialties, as well as associated economics, and environmental, political, and social issues. Co-authored by Charles Gross—one of the most wellknown and respected professors in the field of electric machines and power engineering—and his worldrenowned colleague Thad Roppel, Fundamentals of Electrical Engineering provides an overview of the profession for engineering professionals and students whose specialization lies in areas other than electrical. For instance, civil engineers must contend with commercial electrical service and lighting design issues. Mechanical engineers have to deal with motors in HVAC applications, and chemical engineers are forced to handle problems involving process control. Simple and easy-to-use, yet more than sufficient in rigor and coverage of fundamental concepts, this resource teaches EE fundamentals but omits the typical analytical methods that hold little relevance for the audience. The authors provide many examples to illustrate concepts, as well as homework problems to help readers understand and apply presented material. In many cases, courses for non-electrical engineers, or non-EEs, have presented watered-down classical EE material, resulting in unpopular courses that students hate and senior faculty members understandingly avoid teaching. To remedy this situation—and create more well-rounded practitioners—the authors focus on the true EE needs of non-EEs, as determined through their own teaching experience, as well as significant input from non-EE faculty.
Catalog no. K11681, February 2012, 481 pp. ISBN: 978-1-4398-3714-6, $89.95 / £57.99
Probability, Statistics, and Reliability for Engineers and Scientists Third Edition Bilal M. Ayyub and Richard H. McCuen University of Maryland, College Park, USA
In a technological society, virtually every engineer and scientist needs to be able to collect, analyze, interpret, and properly use vast arrays of data. This means acquiring a solid foundation in the methods of data analysis and synthesis. Understanding the theoretical aspects is important, but learning to properly apply the theory to real-world problems is essential. Probability, Statistics, and Reliability for Engineers and Scientists, Third Edition introduces the fundamentals of probability, statistics, reliability, and risk methods to engineers and scientists for the purposes of data and uncertainty analysis and modeling in support of decision making. The third edition of this bestselling text presents probability, statistics, reliability, and risk methods with an ideal balance of theory and applications. Clearly written and firmly focused on the practical use of these methods, it places increased emphasis on simulation, particularly as a modeling tool, applying it progressively with projects that continue in each chapter. This provides a measure of continuity and shows the broad use of simulation as a computational tool to inform decision making processes. This edition also features expanded discussions of the analysis of variance, including single- and two-factor analyses, and a thorough treatment of Monte Carlo simulation. The authors not only clearly establish the limitations, advantages, and disadvantages of each method, but also show that data analysis is a continuum rather than the isolated application of different methods. Like its predecessors, this book continues to serve its purpose well as both a textbook and a reference. Ultimately, readers will find the content of great value in problem solving and decision making, particularly in practical applications.
Catalog no. K10476, April 2011, 663 pp. ISBN: 978-1-4398-0951-8, $119.95 / £76.99 Also available as an eBook
Also available as an eBook
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General Technical Writing A Practical Guide for Engineers and Scientists Phillip A. Laplante The Pennsylvania State University, Malvern, USA Series: What Every Engineer Should Know
Engineers and scientists of all types are often required to write reports, summaries, manuals, guides, and so forth. While these individuals certainly have had some sort of English or writing course, it is less likely that they have had any instruction in the special requirements of technical writing. Filling this void, Technical Writing: A Practical Guide for Engineers and Scientists enables readers to write, edit, and publish materials of a technical nature, including books, articles, reports, and electronic media. Written by a renowned engineer and widely published technical author, this guide complements the traditional writer’s reference manuals and other books on technical writing. It helps readers understand the practical considerations in writing technical content.
Features: • Offers precise, hands-on coverage of technical writing • Complements the traditional writer’s reference manuals and other books on technical writing • Includes a number of personal anecdotes and historical stories that serve as real-world examples of technical writing • Explores the various avenues for publishing your work • Explains how to write for blogs, social networks, and other e-media • Incorporates at least one figure, table, graphic, bullet list, or equation on most pages Drawing on his own work, the author presents many first-hand examples of writing, editing, and publishing technical materials. These examples illustrate how a publication originated as well as various challenges and solutions.
Catalog no. K11106, July 2011, 250 pp. Soft Cover ISBN: 978-1-4398-2085-8, $41.95 / £26.99 Also available as an eBook
A First Course in Differential Equations, Modeling, and Simulation Carlos A. Smith University of South Florida, Tampa, USA
Scott W. Campbell University of South Florida, Tampa, USA
Emphasizing a practical approach for engineers and scientists, A First Course in Differential Equations, Modeling, and Simulation avoids overly theoretical explanations and shows readers how differential equations arise from applying basic physical principles and experimental observations to engineering systems. It also covers classical methods for obtaining the analytical solution of differential equations and Laplace transforms. In addition, the authors discuss how these equations describe mathematical systems and how to use software to solve sets of equations where analytical solutions cannot be obtained. Using simple physics, the book introduces dynamic modeling, the definition of differential equations, two simple methods for obtaining their analytical solution, and a method to follow when modeling. It then presents classical methods for solving differential equations, discusses the engineering importance of the roots of a characteristic equation, and describes the response of first- and second-order differential equations. A study of the Laplace transform method follows with explanations of the transfer function and the power of Laplace transform for obtaining the analytical solution of coupled differential equations. The next several chapters present the modeling of translational and rotational mechanical systems, fluid systems, thermal systems, and electrical systems. The final chapter explores many simulation examples using a typical software package for the solution of the models developed in previous chapters. Providing the necessary tools to apply differential equations in engineering and science, this text helps readers understand differential equations, their meaning, and their analytical and computer solutions. It illustrates how and where differential equations develop, how they describe engineering systems, how to obtain the analytical solution, and how to use software to simulate the systems.
Catalog no. K12318, May 2011, 345 pp. ISBN: 978-1-4398-5087-9, $93.95 / £59.99 Also available as an eBook
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