Engineering Prinicples of Mechanical Vibration
Author: Douglas D. Reynolds
Publisher: Trafford Publishing
Published: 2009-08-21
Total Pages: 413
ISBN-13: 1426907982
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Engineering Principles of Mechanical Vibration
Author: Douglas D. Reynolds, Ph.d.
Publisher:
Published: 2019-07-29
Total Pages: 484
ISBN-13: 9781490796567
DOWNLOAD EBOOK →Engineering Principles of Mechanical Vibration, 5th Edition was written for use in introductory senior level undergraduate and intermediate level graduate mechanical vibration courses. Students who use this textbook should have an understanding of rigid body dynamics and ordinary differential equations. Mechanical vibration concepts presented in this textbook can be used to address real world vibration problems. Ordinary differential equations are developed and solution methods are presented that describe the motions of vibration systems comprised of mass, spring and damping elements. Partial differential equations are developed and solution methods are presented that describe the motions of vibration systems comprised of strings, beams, membranes and thin plates. The solution methods address vibration systems that are excited by system initial conditions and by periodic, complex periodic, non-periodic and random vibration signals. Information is presented that addresses vibration transducers and measurement instrumentation, the digital processing of vibration signals, and analytical and experimental modal analyses. This textbook presents design criteria and concepts and related system components used to develop vibration isolation systems for mechanical equipment in buildings.
Mechanical Vibration
Author: Haym Benaroya
Publisher: CRC Press
Published: 2017-08-29
Total Pages: 602
ISBN-13: 1498753019
DOWNLOAD EBOOK →Mechanical Vibration: Analysis, Uncertainties, and Control, Fourth Edition addresses the principles and application of vibration theory. Equations for modeling vibrating systems are explained, and MATLAB® is referenced as an analysis tool. The Fourth Edition adds more coverage of damping, new case studies, and development of the control aspects in vibration analysis. A MATLAB appendix has also been added to help students with computational analysis. This work includes example problems and explanatory figures, biographies of renowned contributors, and access to a website providing supplementary resources.
Engineering Principles of Mechanical Vibration
Author: Douglas D. Reynolds
Publisher: Trafford Publishing
Published: 2009-08-20
Total Pages: 0
ISBN-13: 1426907966
DOWNLOAD EBOOK →ENGINEERING PRINICPLES OF MECHANICAL VIBRATION is a textbook that is designed for use in senior level undergraduate and introductory and intermediate level graduate courses in mechanical vibration. The textbook assumes that students have a fundamental understanding of rigid body dynamics and ordinary differential equations. Engineering Principles of Mechanical Vibration is an applications oriented vibration textbook that contains complete developments of the equations associated with the many vibration principles discussed in the textbook. The textbook presents complete developments of solution techniques for ordinary and partial differential equations associated with lumped-parameter single-degree-of-freedom and multi-degree-of-freedom vibration systems and basic continuous vibration systems. It discusses principles associated with periodic, complex periodic, non-periodic, transient, and random vibration excitation and presents information related to vibration measurements and digital processing of vibration signals.
Vibration and Shock Handbook
Author: Clarence W. de Silva
Publisher: CRC Press
Published: 2005-06-27
Total Pages: 1837
ISBN-13: 142003989X
DOWNLOAD EBOOK →Every so often, a reference book appears that stands apart from all others, destined to become the definitive work in its field. The Vibration and Shock Handbook is just such a reference. From its ambitious scope to its impressive list of contributors, this handbook delivers all of the techniques, tools, instrumentation, and data needed to model, analyze, monitor, modify, and control vibration, shock, noise, and acoustics. Providing convenient, thorough, up-to-date, and authoritative coverage, the editor summarizes important and complex concepts and results into “snapshot” windows to make quick access to this critical information even easier. The Handbook’s nine sections encompass: fundamentals and analytical techniques; computer techniques, tools, and signal analysis; shock and vibration methodologies; instrumentation and testing; vibration suppression, damping, and control; monitoring and diagnosis; seismic vibration and related regulatory issues; system design, application, and control implementation; and acoustics and noise suppression. The book also features an extensive glossary and convenient cross-referencing, plus references at the end of each chapter. Brimming with illustrations, equations, examples, and case studies, the Vibration and Shock Handbook is the most extensive, practical, and comprehensive reference in the field. It is a must-have for anyone, beginner or expert, who is serious about investigating and controlling vibration and acoustics.
Introduction to Mechanical Vibrations
Author: Ronald J. Anderson
Publisher: John Wiley & Sons
Published: 2020-06-08
Total Pages: 284
ISBN-13: 111905365X
DOWNLOAD EBOOK →An in-depth introduction to the foundations of vibrations for students of mechanical engineering For students pursuing their education in Mechanical Engineering, An Introduction to Mechanical Vibrations is a definitive resource. The text extensively covers foundational knowledge in the field and uses it to lead up to and include: finite elements, the inerter, Discrete Fourier Transforms, flow-induced vibrations, and self-excited oscillations in rail vehicles. The text aims to accomplish two things in a single, introductory, semester-length, course in vibrations. The primary goal is to present the basics of vibrations in a manner that promotes understanding and interest while building a foundation of knowledge in the field. The secondary goal is to give students a good understanding of two topics that are ubiquitous in today's engineering workplace - finite element analysis (FEA) and Discrete Fourier Transforms (the DFT- most often seen in the form of the Fast Fourier Transform or FFT). FEA and FFT software tools are readily available to both students and practicing engineers and they need to be used with understanding and a degree of caution. While these two subjects fit nicely into vibrations, this book presents them in a way that emphasizes understanding of the underlying principles so that students are aware of both the power and the limitations of the methods. In addition to covering all the topics that make up an introductory knowledge of vibrations, the book includes: ● End of chapter exercises to help students review key topics and definitions ● Access to sample data files, software, and animations via a dedicated website
Mechanical Vibrations in SI Units
Author: Singiresu S. Rao
Publisher:
Published: 2017-10-28
Total Pages: 1152
ISBN-13: 9781292178608
DOWNLOAD EBOOK →For courses in vibration engineering. Building Knowledge: Concepts of Vibration in Engineering Retaining the style of previous editions, this Sixth Edition of Mechanical Vibrations effectively presents theory, computational aspects, and applications of vibration, introducing undergraduate engineering students to the subject of vibration engineering in as simple a manner as possible. Emphasising computer techniques of analysis, Mechanical Vibrations thoroughly explains the fundamentals of vibration analysis, building on the understanding achieved by students in previous undergraduate mechanics courses. Related concepts are discussed, and real-life applications, examples, problems, and illustrations related to vibration analysis enhance comprehension of all concepts and material. In the Sixth Edition, several additions and revisions have been made--including new examples, problems, and illustrations--with the goal of making coverage of concepts both more comprehensive and easier to follow.
Advanced Mechanical Vibrations
Author: Paolo Luciano Gatti
Publisher: CRC Press
Published: 2020-12-21
Total Pages: 235
ISBN-13: 1351008587
DOWNLOAD EBOOK →Advanced Mechanical Vibrations: Physics, Mathematics and Applications provides a concise and solid exposition of the fundamental concepts and ideas that pervade many specialised disciplines where linear engineering vibrations are involved. Covering the main key aspects of the subject – from the formulation of the equations of motion by means of analytical techniques to the response of discrete and continuous systems subjected to deterministic and random excitation – the text is ideal for intermediate to advanced students of engineering, physics and mathematics. In addition, professionals working in – or simply interested in – the field of mechanical and structural vibrations will find the content helpful, with an approach to the subject matter that places emphasis on the strict, inextricable and sometimes subtle interrelations between physics and mathematics, on the one hand, and theory and applications, on the other hand. It includes a number of worked examples in each chapter, two detailed mathematical appendixes and an extensive list of references.
Engineering Principles of Mechanical Vibration
Author: Douglas D. Reynolds
Publisher:
Published: 2013-09
Total Pages: 0
ISBN-13: 9781490714370
DOWNLOAD EBOOK →Engineering Principles of Mechanical Vibration, 4th Edition was written for use in introductory senior level undergraduate and intermediate level graduate mechanical vibration courses. Students who use this textbook should have an understanding of rigid body dynamics and ordinary differential equations. Mechanical vibration concepts presented in this textbook can be used to address real world vibration problems. Ordinary differential equations are developed and solution methods are presented that describe the motions of vibration systems comprised of mass, spring and damping elements. Partial differential equations are developed and solution methods are presented that describe the motions of vibration systems comprised of strings, beams, membranes and thin plates. The solution methods address vibration systems that are excited by system initial conditions and by periodic, complex periodic, non-periodic and random vibration signals. Information is presented that addresses vibration transducers and measurement instrumentation, the digital processing of vibration signals, and analytical and experimental modal analyses. This textbook presents design criteria and concepts and related system components used to develop vibration isolation systems for mechanical equipment in buildings.
Mechanical Vibration
Author: William John Palm
Publisher:
Published: 2007
Total Pages: 728
ISBN-13:
DOWNLOAD EBOOK →Model, analyze, and solve vibration problems, using modern computer tools. Featuring clear explanations, worked examples, applications, and modern computer tools, William Palm's Mechanical Vibration provides a firm foundation in vibratory systems. You'll learn how to apply knowledge of mathematics and science to model and analyze systems ranging from a single degree of freedom to complex systems with two and more degrees of freedom. Separate MATLAB sections at the end of most chapters show how to use the most recent features of this standard engineering tool, in the context of solving vibration problems. The text introduces Simulink where solutions may be difficult to program in MATLAB, such as modeling Coulomb friction effects and simulating systems that contain non-linearities. Ample problems throughout the text provide opportunities to practice identifying, formulating, and solving vibration problems. KEY FEATURES Strong pedagogical approach, including chapter objectives and summaries Extensive worked examples illustrating applications Numerous realistic homework problems Up-to-date MATLAB coverage The first vibration textbook to cover Simulink Self-contained introduction to MATLAB in Appendix A Special section dealing with active vibration control in sports equipment Special sections devoted to obtaining parameter values from experimental data
