| Vibration analysis |
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Find Books about 'Vibration analysis' at Amazon.
Engineering Vibration (Revised)   
by Daniel J. Inman. A textbook for a first course in vibration for advanced undergraduates in mechanical, civil, and aerospace engineering or mechanics. It combines the study of traditional introductory vibration with the use of vibration design, analysis, and testing in engineering practice. In addition to the topics customarily found in vibration texts, new topics are introduced in the areas of design, measurement, damping, and computational aspects.
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| Added: February 20, 2001 |
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Engineering Mechanics: Statics  
by Irving H. Shames. A fourth edition of the classic sophomore mechanics text emphasizing working problems from first principles, minimizing rote learning, and preparing the student for future course work by "looking ahead" to more advanced engineering problems. The text reviews the fundamentals of mechanics and vector algebra, and introduces: structural mechanics, friction forces, surface properties, products of inertia, and methods of virtual work. The appendices contain additional problems outside the text, and also computer projects.
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| Added: February 20, 2001 |
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Introduction to Finite Element Vibration Analysis  by Maurice Petyt. This book presents an introduction to the mathematical basis of finite element analysis as applied to vibrating systems. Finite element analysis is a technique which is very important in modelling the response of structures to dynamic loads and is widely used in aeronautical, civil and mechanical engineering as well as naval architecture. The book has been written in a modular style to make it suitable for use in courses of varying length and level. | |
| Added: February 20, 2001 |
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| Introduction to Mechanical Vibrations by Robert F. Steidel. This Third Edition of the well-received engineering text retains the clarity of exposition that made the previous editions so popular, and contains the most widely-used problem sets in the business. Approach to vibration analysis is clear, concise, and simple, backed up by a wealth of problems and examples. Multi-degree-of-freedom problems are well-prefaced with two-degree-of-freedom cases. | |
| Added: February 20, 2001 |
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Machinery Malfunction Diagnosis and Correction: Vibration Analysis and Troubleshooting for Process Industries 
by Robert C., Sr. Eisenmann, Robert C., Jr. Eisenmann. A guide to the application of engineering principles in the diagnosis and correction of malfunction of a wide range of machinery which operates within the heavy process industries.
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| Added: February 20, 2001 |
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Machinery Vibration: Measurement and Analysis  by Victor Wowk. Ninety percent of all machine failures are signaled months, even years, in advance by changes in machine vibrations. Some future failures are even predictable upon initial start-up. By understanding a machine's vibration "signature," you can diagnose, solve, and prevent problems, as well as reduce the cost of maintenance. | |
| Added: February 20, 2001 |
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Mechanical Vibration: Analysis, Uncertainties, and Control 
by Haym Benaroya. An ideal reference tool for practicing professionals who want a clearer understanding of the technical details of a design project, this book provides a thorough and in-depth discussion of basic vibration that offers real physical insights into the equations. Introducing advanced topics first qualitatively then mathematically, it offers extensive physical analyses, realistic example problems, and lists of mini-projects that lead readers to relevant literature in the discipline.
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| Added: February 20, 2001 |
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Mechanical Vibrations/Book and Disk 
by Singiresu S. Rao. A text that serves as an introduction to the subject of vibration engineering at the undergraduate level. As in the previous editions, computer techniques of analysis are emphasized. Several Fortran computer programs, most of them in the form of general purpose subroutines, are included in the accompanying diskette.
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| Added: February 20, 2001 |
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Principles and Techniques of Vibrations 
by Leonard Meirovitch. This text offers students the most advanced, comprehensive coverage of vibrations of any text currently on the market. It presents a mathematically rigorous approach to vibrations--one that not only permits efficient formulations and solutions to problems, but also enhances the understanding of the physics of the problem.
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| Added: February 20, 2001 |
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Shock and Vibration Handbook 
by Cyril M. Harris (Editor). New edition of a hefty handbook used since 1961 by aeronautical, acoustical, civil, electrical, mechanical, and plant engineers, as well as product designers and students.
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| Added: February 20, 2001 |
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Theory of Vibrations With Applications 
by William T. Thomson, Marie Dillon Dahleh (Contributor). A thorough treatment of vibration theory and its engineering applications, from simple degree to multi degree-of-freedom system.
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| Added: February 20, 2001 |
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Vibration for Engineers 
by Andrew Dimarogonas. A completely rewritten new edition of an undergraduate textbook originally published in 1976 as Vibration engineering, advancing the basic theory and some notable applications. Employs SIMULAB as a vehicle which makes the computer screen an observation window into a laboratory where the principles described in the text can be demonstrated.
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| Added: February 20, 2001 |
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| Vibration of Mechanical and Structural Systems : With Microcomputer Applications/Book and Disk by M.L. James, G.M. Smith, J.C. Wolford, P.W. Whaley. Topics include free vibration, harmonic excitation, transient vibration, forced vibration, Lagrange equations, and continuous systems. | |
| Added: February 20, 2001 |
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| Vibration of Structures and Machines : Practical Aspects by Giancarlo Genta. The aim of this book is to address important practical aspects of vibration analysis. It presents cases rarely discussed in the existing literature on vibration that are problems of considerable interest for researchers and practical engineers, such as rotor dynamics and torsional vibration of engines. The book can be used not only as a reference, but also as a textbook for advanced graduate students and undergraduates, as it develops the subject from its foundations and contains problems and solutions for each chapter. | |
| Added: February 20, 2001 |
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Vibration Problems in Engineering 
by William Weaver, Stephen P. Timoshenko, Donovan H. Yound, Donovan H. Young. The Fifth Edition of this classic work retains the most useful portions of Timoshenko's book on vibration theory and introduces powerful, modern computational techniques. The normal mode method is emphasized for linear multi-degree and infinite-degree-of-freedom systems and numerical methods dominate the approach to nonlinear systems. A new chapter on the finite-element method serves to show how any continuous system can be discretized for the purpose of simplifying the analysis.
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| Added: February 20, 2001 |
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Vibration Spectrum Analysis : A Practical Approach 
by Steve Goldman. Introduces the latest techniques of spectrum analysis to enhance machine reliability and identify problem areas before damage occurs. The second edition includes new information on current instrumentation, along with case studies and new practice questions.
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| Added: February 20, 2001 |
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