Mechanical and Aerospace Engineering Books 2018
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This catalogue contains a selection of our most recent books published in Mechanical and Aerospace Engineering. Please visit our website for a full and searchable listing of all our titles in print. Cambridge University Press advances knowledge, learning and research worldwide.
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Mechanical and Aerospace Engineering Books 2018
Nonequilibrium Molecular Dynamics
Introduction to Surface Engineering
Theory, Algorithms and Applications
P. A. Dearnley Boride Services Ltd.
Billy D. Todd Swinburne University of Technology, Victoria Peter J. Daivis Royal Melbourne Institute of Technology Written by two specialists with over twenty-five years of experience, this book explains a wide range of topics within the growing field of nonequilibrium molecular dynamics (NEMD). This coherent collection of theory, algorithms, and illustrative results will appeal to graduate students, as well as specialist and non-specialist practitioners. Contents
1. Introduction; 2. Nonequilibrium thermodynamics; 3. Statistical mechanical foundations; 4. Temperature and thermodynamic fluxes; 5. Homogenous flows for atomic fluids - theory; 6. Homogenous flows for atomic fluids - applications; 7. Homogenous heat and mass transport; 8. Homogenous flows for molecular fluids; 9. Inhomogenous flows for atomic fluids; 10. Confined molecular fluids; 11. Generalised hydrodynamics and slip
£59.99 | $94.99 | Hardback | 9780521190091 March 2017 | 260 x 182 x 24 mm | 367pp
1
This highly illustrated reference work provides a comprehensive overview of the surface engineering discipline. Valuable to final-year undergraduate and postgraduate students, graduate engineers, scientists, and anyone involved in project work, this volume rigorously explains the three principal types of surface technologies that best protect engineering devices and products. Contents
Preface; 1. Background to the subject; 2. Surface engineering basics; 3. Surface engineering with diffusion technologies; 4. Surface engineering with deposition technologies; 5. Surface engineering by other means; 6. Surface degradation and its evaluation; 7. Surface engineering for cutting tools; 8. Surface engineering for automotive engine components; 9. Surface engineering for gas turbine engines (GTEs); 10. Surface engineering for biomedical implants; Index.
‘I enjoyed reading this very straightforward book. Its great strength is as a complete resource that will be invaluable for those studying and teaching courses on surface engineering at the advanced undergraduate and graduate level in universities, as well as materials scientists and mechanical engineers in government research establishments and industrial research environments.’ Kevin M. Knowles, University of Cambridge £74.99 | $135.00 | Hardback | 9780521401685 March 2017 | 261 x 183 x 32 mm | 520pp
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Mechanical and Aerospace Engineering Books 2018
Thermodynamics
Theory of Dislocations
Fundamentals and Engineering Applications
3rd Edition
William C. Reynolds
Peter M. Anderson Ohio State University
Piero Colonna Technische Universiteit Delft, The Netherlands
John P. Hirth Washington State University
TEXTBOOK
Thermodynamics: Fundamentals and Engineering Applications departs from the mainstream textbooks on the subject for its essential treatment of thermodynamics and its systematic and rigorous method for the solution of engineering problems. Aimed at students and professionals in mechanical and aerospace engineering. Contents
1. Introduction; 2. Energy; 3. Properties and states; 4. Control volume energy analysis; 5. Entropy and the second law; 6. Thermodynamics of state; 7. Energy conversion systems; 8. Thermodynamic properties of multicomponent fluids; 9. Exergy analysis; 10. Thermodynamics of reacting mixtures; A. Thermodynamic properties of fluids; B. Mathematical relations between partial derivatives; C. Numerical schemes for saturation point and flash calculations; D. Chemical equilibrium; Index; Notation.
ÂŁ99.99 | $125.00 | Hardback | 9780521862738 March 2018 | 246 x 189 mm | 100 b/w illus. 220 colour illus. 23 tables | 596pp
Jens Lothe Universitetet i Oslo TEXTBOOK
This book presents coverage of the nucleation, motion, and interaction of crystalline defects called dislocations. It provides the basis to understand relaxation mechanisms in semiconductor materials, strengthening mechanisms and temperaturedependent behavior in metals, alloys, and ceramics, and applies this to mechanical deformation in crystals. Contents
Part I. Isotropic Continua: 1. Introductory material; 2. Elasticity; 3. Theory of straight dislocations; 4. Theory of curved dislocations; 5. Applications to dislocation interactions; 6. Applications to self energies; 7. Dislocations at high velocities. Part II. Effects of Crystal Structure: 8. The influence of lattice periodicity; 9. Slip systems of perfect dislocations; 10. Partial dislocations in FCC metals; 11. Partial dislocations in other structures; 12. Dislocations in ionic crystals; 13. Dislocations in anisotropic elastic media. Part III. Interactions with Point Defects: 14. Equilibrium defect concentrations; 15. Diffusive glide and climb processes; 16. Glide of jogged dislocations; 17. Dislocation motion in vacancy supersaturations; 18. Effects of solute atoms on dislocation motion. Part IV. Groups of Dislocations: 19. Grain boundaries and interfaces; 20. Dislocation sources; 21. Dislocation pileups and cracks; 22. Dislocation intersections and barriers; 23. Deformation twinning
ÂŁ89.99 | $130.00 | Hardback | 9780521864367 April 2017 | 287 x 223 x 34 mm | 718pp
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Mechanical and Aerospace Engineering Books 2018
Predictive Control for Linear and Hybrid Systems
Fundamentals, Properties, and Applications of Polymer Nanocomposites
Francesco Borrelli University of California, Berkeley
Joseph H. Koo University of Texas, Austin
Alberto Bemporad IMT Institute for Advanced Studies Manfred Morari Swiss Federal Institute of Technology (ETH) TEXTBOOK
With a simple, unified approach, and with consideration of real-time applications, this book covers the theory of stability, feasibility, and robustness of model predictive control (MPC). It is for graduate and postgraduate students, as well as advanced control practitioners interested in the theory and/or implementation of predictive control. Contents
Preface; Acknowledgements; Symbols and acronyms. Part I. Basics of Optimization: 1. Main concepts; 2. Linear and quadratic optimization; 3. Numerical methods for optimization; 4. Polyhedra and p-collections. Part II. Multiparametric Programming: 5. Multiparametric nonlinear programming; 6. Multiparametric programming: a geometric approach. Part III. Optimal Control: 7. General formulation and discussion; 8. Linear quadratic optimal control; 9. Linear 1/∞ norm optimal control. Part IV. Constrained Optimal Control of Linear Systems: 10. Controllability, reachability and invariance; 11. Constrained optimal control; 12. Receding horizon control; 13. Approximate receding horizon control; 14. On-line control computation; 15. Constrained robust optimal control. Part V. Constrained Optimal Control of Hybrid Systems: 16. Models of hybrid systems; 17. Optimal control of hybrid systems; References; Index.
£51.99 | $64.99 | Paperback | 9781107652873 June 2017 | 246 x 190 x 20 mm | 116 b/w illus. 11 tables | 440pp
3
This book is focused primarily on polymer nanocomposites, based on the author’s research experience as well as open literature. This text is divided into three parts. Part I – Fundamentals, Processing, and Characterizations, Part II – Multifunctional Properties, and Part III – Concerns and Outlook. Throughout the book, the theme is developed that polymer nanocomposites compose of a whole family of polymeric materials whose properties are capable of being tailored to meet specific applications. This volume serves as a general introduction to researchers just entering the field and to scholars from other subfields seeking information. Contents
Part I. Fundamentals, Processing, and Characterization: 1. Introduction to nanotechnology; 2. An overview of nanomaterials; 3. Basics of polymer matrices and composites; 4. Selecting resin matrix and nanomaterials for applications; 5. Processing of multifunctional polymer nanocomposites; 6. Structure and properties characterization. Part II. Multifunctional Properties and Applications: 7. Mechanical properties of polymer nanocomposites; 8. Thermal properties of polymer nanocomposites; 9. Flammability properties of polymer nanocomposites; 10. Ablation properties of polymer nanocomposites; 11. Electrical properties of polymer nanocomposites; 12. Optical properties of polymer nanocomposites; 13. Other enhanced properties of polymer nanocomposites. Part III. Concerns and Outlook: 14. Nanotechnology environmental and health impacts for nanomaterials and polymer nanocomposites; 15. Opportunities, trends, and challenges for polymer nanocomposites.
£84.99 | $135.00 | Hardback | 9781107029965 December 2016 | 262 x 185 x 33 mm | 1047 b/w illus. 96 tables | 716pp
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4
Mechanical and Aerospace Engineering Books 2018
Foundations of Gas Dynamics Ruey-Hung Chen New Mexico State University This reference on gas dynamics covers supersonic and subsonic flow phenomena where compressibility of the fluid cannot be ignored. It discusses applications in jet and rocket propulsion systems and industrial gas flow at high speeds. The applications focus and theoretical coverage will be appreciated by both students and engineers. Contents
1. Properties and kinetic theory of gases; 2. Basic equations and thermodynamics of compressible flow; 3. Acoustic wave and flow regime; 4. One-dimensional isentropic flow, shock, and expansion waves; 5. One-dimensional flows in channels; 6. One-dimensional flows with friction; 7. One-dimensional flows with heat transfer; 8. Equations of multidimensional frictionless flow subject to small perturbation; 9. Applications of small perturbation theory; 10. Method of characteristics for two independent variables; 11. Unsteady flow; 12. Introduction to inviseid hypersonic flows.
ÂŁ89.99 | $130.00 | Hardback | 9781107082700 March 2017 | 260 x 185 x 22 mm | 428pp
The Mechanics and Reliability of Films, Multilayers and Coatings Matthew R. Begley University of California, Santa Barbara John W. Hutchinson Harvard University, Massachusetts TEXTBOOK
A comprehensive treatment of the mechanics of films, coatings, and multilayers, which organizes and condenses key concepts impacting reliability and clearly illustrates their implications for component design. The book provides introductory coverage for the novice, along with easy-to-use software to empower users to simulate cracking a wide variety of applications. Contents
1. Introduction; 2. Key mechanics concepts; 3. Fracture mechanics; 4. Bilayers; 5. Multilayers; 6. Channeling/tunneling cracks; 7. Kinking; 8. Penetration vs deflection vs arrest; 9. Edge and corner interface cracks; 10. Buckling delamination; 11. Thin strips (patterned lines); 12. Steady-state temperature gradients; 13. Cracking due to temperature transients; 14. Software for steady-state delamination; 15. Software for transient behavior; 16. FEA software for multilayers; 17. Convergence and benchmarks with LS-FEA.
ÂŁ79.99 | $115.00 | Hardback | 9781107131866 March 2017 | 260 x 182 x 17 mm | 288pp
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Mechanical and Aerospace Engineering Books 2018
Ship Resistance and Propulsion
Reinventing the Propeller Aeronautical Specialty and the Triumph of the Modern Airplane
Practical Estimation of Ship Propulsive Power
Jeremy R. Kinney National Air and Space Museum, Washington DC
2nd Edition
TEXTBOOK
Anthony F. Molland University of Southampton Stephen R. Turnock University of Southampton Dominic A. Hudson University of Southampton TEXTBOOK
This updated volume provides a comprehensive and modern scientific approach to evaluating ship resistance and propulsion. It includes the latest developments in experimental and CFD techniques, and provides guidance for the practical estimation of ship propulsive power for a range of ship types. Contents
1. Introduction; 2. Propulsive power; 3. Components of hull resistance; 4. Model-ship extrapolation; 5. Modelship correlation; 6. Restricted water depth and breadth; 7. Measurement of resistance components; 8. Wake and thrust deduction; 9. Numerical estimation of ship resistance; 10. Resistance design data; 11. Propulsor types; 12. Propeller characteristics; 13. Powering process; 14. Hull form design; 15. Numerical methods for propeller analysis; 16. Propeller design data; 17. Reductions in propulsive power and emissions; 18. Applications.
£79.99 | $99.99 | Hardback | 9781107142060 August 2017 | 260 x 185 x 32 mm | 626pp
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Reinventing the Propeller documents this story of a forgotten technology to reveal new perspectives on the technical development of the airplane and the rise of modern aviation. As a scholarly history of the airplane propeller, this book will appeal to specialists and general readers interested in aeronautical history, the history of flight, and science and technology. Contents
1. Introduction. The propeller and the modern airplane; 2. ‘The best propeller for starting is not the best for flying’; 3. ‘Engineering of a pioneer character’; 4. A ‘new type adjustablepitch propeller’; 5. ‘The propeller that took Lindbergh across’; 6. ‘The ultimate solution of our propeller problem’; 7. No. 1 propeller company; 8. A gear shift for the airplane; 9. Constantspeed; 10. ‘The Spitfire now ‘is an aeroplane’’; 11. A propeller for the air age; 12. Conclusion. The triumph and decline of the propeller; Essay on sources; Index.
Advance praise: ‘Jeremy R. Kinney’s masterful study of the evolution of the aircraft propeller not only represents an important contribution to the history of flight technology, it is also that rare specialist account that illuminates broader questions in the development of complex technical systems.’ Tom D. Crouch, National Air and Space Museum, Smithsonian Institution £90.00 | $120.00 | Hardback | 9781107142862 May 2017 | 236 x 160 x 25 mm | 25 b/w illus. 4 tables | 386pp
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Mechanical and Aerospace Engineering Books 2018
Probabilistic Mechanics of Quasibrittle Structures
Advanced Structural Dynamics
Strength, Lifetime, and Size Effect
Eduardo Kausel Massachusetts Institute of Technology
Zdenek P. Bazant Northwestern University, Illinois Jia-Liang Le University of Minnesota TEXTBOOK
This book presents a mathematical exposition of the strength and lifetime statistics of structures made of brittle heterogeneous materials. This subject is of paramount importance for analysis and design of many man-made structures with applications to civil, mechanical, aerospace, geotechnical, ocean, offshore, petroleum, naval, nuclear, mining, biomedical and materials engineering. Contents
1. Introduction; 2. Review of classical statistical theory of structural strength and structural safety, and of classical fundamentals; 3. Review of fracture mechanics and deterministic size effect in quasibrittle structures; 4. Failure statistics of nanoscale structures; 5. Nano-macro scale bridging of probability distributions of static and fatigue strengths; 6. Multiscale modeling of fracture kinetics and size effect under static and cyclic fatigue; 7. Size effect on probability distributions of strength and lifetime of quasibrittle structures; 8. Computation of probability distributions of structural strength and lifetime; 9. Indirect determination of strength statistics of quasibrittle structures; 10. Statistical distribution and size effect on residual strength after sustained load; 11. Size effect on reliability indices and safety factors; 12. Crack length effect on scaling of structural strength and type 1 to 2 transition; 13. Effect of stress singularities on scaling of structural strength; 14. Lifetime of high-k gate dielectrics and its analogy with failure statistics of quasibrittle structures
Developed from three decades’ worth of lecture notes from Massachusetts Institute of Technology lectures, this concise textbook presents an exhaustive treatment of structural dynamics and mechanical vibration. Appropriate for introductory courses yet rigorous enough for advanced courses, this book is for graduate students, doctoral candidates, practicing professionals, and instructors. Contents
1. Fundamental principles; 2. Single degree-of-freedom systems; 3. Multiple degree-of-freedom systems; 4. Continuous systems; 5. Wave propagation; 6. Numerical methods; 7. Earthquake engineering and soil dynamics; 8. Advanced topics; 9. Mathematical tools; 10. Problem sets
£84.99 | $135.00 | Hardback | 9781107171510 August 2017 | 262 x 183 x 40 mm | 744pp
£110.00 | $140.00 | Hardback | 9781107151703 May 2017 | 263 x 185 x 22 mm | 316pp
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Mechanical and Aerospace Engineering Books 2018
Advanced Analytical Dynamics
Fundamentals of Linear Control
Theory and Applications
A Concise Approach
Vincent De Sapio HRL Laboratories LLC, California
Maurício C. de Oliveira University of California, San Diego
Intended for graduate students, this textbook provides an understanding of the theoretical underpinnings of analytical mechanics, as well as modern task-based approaches that can be exploited for real-world problems. Students will receive a timely perspective on applying theory to modern problems in areas like biomechanics and robotics. Contents
1. Introduction; 2. Mathematical preliminaries; 3. Kinematics of discrete systems; 4. Conservation principles; 5. Zeroth order variational principles; 6. First order variational principles; 7. Second order variational principles; 8. Dynamics in task space; 9. Applications to biomechanical systems; 10. Software for analytical dynamics
7
TEXTBOOK
This book offers a comprehensive introduction to the analysis and design of feedback control systems in less than 400 pages. It features fully worked examples and richly illustrated chapters complemented with homework problems and examples, making it the textbook of choice for senior-level courses in systems and control. Contents
Preface; Problem guide matrix; 1. Introduction; 2. Dynamic system; 3. Transfer-function models; 4. Feedback analysis; 5. State-space models and linearization; 6. Controller design; 7. Frequency domain; 8. Performance and robustness; Index; Solutions to problems
£69.99 | $99.99 | Hardback | 9781107179608
£79.99 | $99.99 | Hardback | 9781107187528
March 2017 | 260 x 183 x 18 mm | 302pp
May 2017 | 255 x 180 x 20 mm | 144 b/w illus. | 312pp
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Mechanical and Aerospace Engineering Books 2018
Vibration of Nearly Periodic Structures and Mistuned Bladed Rotors Alok Sinha Pennsylvania State University Periodic structures are ubiquitous not only in engineering but also in physical and life sciences. This volume presents fundamental concepts and state-of-the-art techniques in the analysis of mistuned vibration, with useful information for professionals in aerospace and mechanical engineering, physics, nanotechnology, and other disciplines.
Principles of Continuum Mechanics Conservation and Balance Laws with Applications 2nd Edition J. N. Reddy Texas A & M University TEXTBOOK
1. Fundamentals of free vibration of a rotationally periodic structure; 2. Fundamentals of forced vibration of a mistuned rotationally periodic structure; 3. Reduced-order models and response of nearly periodic structures.
This book provides a concise treatment of the subject of continuum mechanics and elasticity at the senior undergraduate and first-year graduate levels. The examples and exercise problems contained in the book systematically advance the understanding of vector and tensor analysis, basic kinematics, balance laws, field equations, and constitutive equations.
£89.99 | Hardback | 9781107188990
Contents
Contents
June 2017 | 242 x 184 x 16 mm | 200pp
1. Introduction; 2. Vectors and tensors; 3. Kinematics of a continuum; 4. Stress vector and stress tensor; 5. Conservation of mass and balance of momenta and energy; 6. Constitute equations; 7. Applications in heat transfer, fluid mechanics, and solid mechanics
‘A gutsy attempt at a simplified yet insightful treatment of continuum mechanics, Principles of Continuum Mechanics 2nd Edition offers a rare opportunity for the uninitiated audience, including students at the undergraduate level, to learn the essence of the philosophy and the working of the continuum theory of solids and fluids. It has substantive appeal, not just for the beginner, but also for those intending to make use of basic continuum mechanics for industrial or research purposes of an interdisciplinary nature.’ Debasish Roy, Indian Institute of Science £49.99 | $64.99 | Hardback | 9781107199200 December 2017 | 261 x 181 x 17 mm | 270pp
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Mechanical and Aerospace Engineering Books 2018
9
CAMBRIDGE AEROSPACE SERIES
PLASMA DYNAMICS FOR AEROSPACE ENGINEERING
JOSEPH J. S. SHANG SERGEY T. SURZHIKOV
Introduction to Aircraft Design
Plasma Dynamics for Aerospace Engineering
2nd Edition
Joseph Shang Wright State University, Ohio
John P. Fielding Cranfield University, UK
Sergey T Surzhikov Russian Academy of Sciences, Moscow
TEXTBOOK
Cambridge Aerospace Series, No. 43
Cambridge Aerospace Series
The new edition of this popular textbook provides a modern, accessible introduction to the whole process of aircraft design from requirements to conceptual design, manufacture and in-service issues. The text includes updated costs, many new images and examples from real projects and unique data that’s invaluable to aircraft designers’ work. Contents
1. Introduction; 2. Why should we design a new aircraft?; 3. Why is it that shape? - civil aircraft; 4. Why is it that shape - other types; 5. What’s under the skin? - structure and properties; 6. What’s under the skin? - airframe systems; 7. What’s under the skin? - avionics, flight control and weapons systems; 8. Why do aircraft cost so much?; 9. What help can I get? - bibliography and computer-aided design; 10. The shape of things to come should the project continue?; 11. What can go wrong? - some lessons from past aircraft projects, and a glimpse into the future; Appendix A. Useful aircraft design data; Appendix B. A-90 parametric study. Example. The A-90 500-seat airliner; Appendix C. The prediction of aircraft reliability and maintainability targets; References; Index
This volume establishes the foundation and best practices for applying plasma dynamics to viable aerospace engineering plasma applications, offering a comprehensive review while providing directly usable problem-solving techniques. It bridges the gap between theoretical physics and modeling and simulation technique for studying plasma dynamics. Contents
1. Plasma physics fundamentals; 2. Plasma in magnetic field; 3. Maxwell equations; 4. Plasma dynamics formulation; 5. Magnetohydrodynamics equations; 6. Ionization processes in gases; 7. Plasma and magnetic field generation; 8. Plasma diagnostics; 9. Radiative energy transfer; 10. Applications.
£95.99 | $120.00 | Hardback | 9781108418973 June 2018 | 253 x 177 mm | 400pp
£49.99 | $64.99 | Paperback | 9781107680791 May 2017 | 253 x 178 x 14 mm | 227 b/w illus. | 302pp
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