Engineering Principles Of Mechanical Vibration

Author: Douglas D. Reynolds
Editor: Trafford Publishing
ISBN: 1490714367
Size: 16,47 MB
Format: PDF, Docs
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Engineering Principles 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. It 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 equations associated with the many vibration principles discussed in the textbook. The textbook presents complete developments of solution techniques for differential equations associated with lumped-parameter single- and multi-degree-of-freedom and basic continuous vibration systems. It discusses principles associated with periodic, complex periodic, nonperiodic, transient, and random vibration excitation and presents information related to vibration measurements, digital processing of vibration signals, and analytical and experimental modal analyses.

Engineering Vibration

Author: D. J. Inman
Editor:
ISBN:
Size: 16,75 MB
Format: PDF
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This textbook for junior and senior engineering students combines traditional introductory vibration with the use of vibration design, analysis and testing in engineering practice. The second edition integrates the Mathematica and Mathcad computational software. Annotation c. Book News, Inc., Portla

Mechanical Vibration And Shock Analysis Specification Development

Author: Christian Lalanne
Editor: John Wiley & Sons
ISBN: 1848216483
Size: 17,65 MB
Format: PDF, ePub, Mobi
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Everything engineers need to know about mechanical vibration and shock...in one authoritative reference work! This fully updated and revised 3rd edition addresses the entire field of mechanical vibration and shock as one of the most important types of load and stress applied to structures, machines and components in the real world. Examples include everything from the regular and predictable loads applied to turbines, motors or helicopters by the spinning of their constituent parts to the ability of buildings to withstand damage from wind loads or explosions, and the need for cars to maintain structural integrity in the event of a crash. There are detailed examinations of underlying theory, models developed for specific applications, performance of materials under test conditions and in real-world settings, and case studies and discussions of how the relationships between these affect design for actual products. Invaluable to engineers specializing in mechanical, aeronautical, civil, electrical and transportation engineering, this reference work, in five volumes is a crucial resource for the solution of shock and vibration problems. This volume focuses on specification development in accordance with the principle of tailoring. Extreme response and the fatigue damage spectra are defined for each type of stress (sinusoidal vibration, swept sine, shock, random vibration, etc.). The process for establishing a specification from the life cycle profile of equipment which will be subject to these types of stresses is then detailed. The analysis takes into account the uncertainty factor, designed to cover uncertainties related to the real-world environment and mechanical strength, and the test factor, which takes account of the number of tests performed to demonstrate the resistance of the equipment.

Vibration

Author: Clarence W. de Silva
Editor: CRC Press
ISBN: 9781439858158
Size: 18,34 MB
Format: PDF, Kindle
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Maintaining the outstanding features and practical approach that led the bestselling first edition to become a standard textbook in engineering classrooms worldwide, Clarence de Silva's Vibration: Fundamentals and Practice, Second Edition remains a solid instructional tool for modeling, analyzing, simulating, measuring, monitoring, testing, controlling, and designing for vibration in engineering systems. It condenses the author's distinguished and extensive experience into an easy-to-use, highly practical text that prepares students for real problems in a variety of engineering fields. What's New in the Second Edition? A new chapter on human response to vibration, with practical considerations Expanded and updated material on vibration monitoring and diagnosis Enhanced section on vibration control, updated with the latest techniques and methodologies New worked examples and end-of-chapter problems. Incorporates software tools, including LabVIEWTM, SIMULINK®, MATLAB®, the LabVIEW Sound and Vibration Toolbox, and the MATLAB Control Systems Toolbox Enhanced worked examples and new solutions using MATLAB and SIMULINK The new chapter on human response to vibration examines representation of vibration detection and perception by humans as well as specifications and regulatory guidelines for human vibration environments. Remaining an indispensable text for advanced undergraduate and graduate students, Vibration: Fundamentals and Practice, Second Edition builds a unique and in-depth understanding of vibration on a sound framework of practical tools and applications.

Mechanical Vibration Practice With Basic Theory

Author: Viswanatha Ramamurti
Editor: CRC Press
ISBN: 9780849309755
Size: 11,30 MB
Format: PDF, Mobi
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Students who have taken courses in vibration often get the impression that the course is too mathematical in nature and generally beyond their reach comprehension. Mechanical Vibration Practice with Basic Theory erases that impression. The book adopts an unconventional approach. It presents only those mathematical tools that are most appropriate for solving practical problems, and it emphasizes figures of significance in mechanical vibration. The material is confined to problems endemic in the mechanical engineering industry, and it includes computer programs that are used to solve complicated problems.

Mechanical Vibration And Shock Analysis Sinusoidal Vibration

Author: Christian Lalanne
Editor: John Wiley & Sons
ISBN: 1118931092
Size: 19,80 MB
Format: PDF, ePub
Read: 154
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Everything engineers need to know about mechanical vibration and shock...in one authoritative reference work! This fully updated and revised 3rd edition addresses the entire field of mechanical vibration and shock as one of the most important types of load and stress applied to structures, machines and components in the real world. Examples include everything from the regular and predictable loads applied to turbines, motors or helicopters by the spinning of their constituent parts to the ability of buildings to withstand damage from wind loads or explosions, and the need for cars to maintain structural integrity in the event of a crash. There are detailed examinations of underlying theory, models developed for specific applications, performance of materials under test conditions and in real-world settings, and case studies and discussions of how the relationships between these affect design for actual products. Invaluable to engineers specializing in mechanical, aeronautical, civil, electrical and transportation engineering, this reference work, in five volumes is a crucial resource for the solution of shock and vibration problems. The relative and absolute response of a mechanical system with a single degree of freedom is considered for an arbitrary excitation, and its transfer function is defined in various forms. The characteristics of sinusoidal vibration are examined in the context both of the real world and of laboratory tests, and for both transient and steady state response of the one-degree-of-freedom system. Viscous damping and then non-linear damping are considered. The various types of swept sine perturbations and their properties are described and, for the one-degree-of-freedom system, the consequence of an inappropriate choice of sweep rate are considered. From the latter, rules governing the choice of suitable sweep rates are then developed.

Solving Vibration Analysis Problems Using Matlab

Author: Rao V. Dukkipati
Editor: New Age International
ISBN: 8122420648
Size: 20,83 MB
Format: PDF, Mobi
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Mechanical Vibration

Author: Haym Benaroya
Editor: CRC Press
ISBN: 1420080571
Size: 15,75 MB
Format: PDF, ePub
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Mechanical Vibration: Analysis, Uncertainties, and Control simply and comprehensively addresses the fundamental principles of vibration theory, emphasizing its application in solving practical engineering problems. The authors focus on strengthening engineers’ command of mathematics as a cornerstone for understanding vibration, control, and the ways in which uncertainties affect analysis. It provides a detailed exploration and explanation of the essential equations involved in modeling vibrating systems and shows readers how to employ MATLAB® as an advanced tool for analyzing specific problems. Forgoing the extensive and in-depth analysis of randomness and control found in more specialized texts, this straightforward, easy-to-follow volume presents the format, content, and depth of description that the authors themselves would have found useful when they first learned the subject. The authors assume that the readers have a basic knowledge of dynamics, mechanics of materials, differential equations, and some knowledge of matrix algebra. Clarifying necessary mathematics, they present formulations and explanations to convey significant details. The material is organized to afford great flexibility regarding course level, content, and usefulness in self-study for practicing engineers or as a text for graduate engineering students. This work includes example problems and explanatory figures, biographies of renowned contributors, and access to a website providing supplementary resources. These include an online MATLAB primer featuring original programs that can be used to solve complex problems and test solutions.

Mechanische Schwingungen

Author: Jacob P. DenHartog
Editor: Springer-Verlag
ISBN: 3662124440
Size: 12,41 MB
Format: PDF
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Die amerikanische Ausgabe dieses Buches erschien 1947 in der dritten, nicht unwesentlich erweiterten Auflage. Der Verfasser erwähnt in seinem Vorwort, daß es ursprünglich aus dem Text von Vorlesungen an der Design School der W estinghouse Company entstand und zu nächst für den Unterrichtsgebrauch an der Harvard Engineering School herausgegeben wurde. In die Neuauflage wurden neue Veröffentlichungen und eigene Erfahrungen eingearbeitet. Im Vorwort der deutschen Erstauflage (1936) wurde darauf hin gewiesen, daß das vorliegende Buch eine glückliche, dem ingenieur mäßigen Denken entsprechende Anschaulichkeit hat. Der Verfasser ver meidet es, lediglich Gebrauchsanweisungen für Rechenvorschriften zu geben; andererseits verzichtet er auf die Ausarbeitung der vollstän digen, strengen Theorie. Er versteht es, dem Leser die wesentlichen Zusammenhänge auch verwickelter Erscheinungen plausibel zu machen. So vermittelt die Darstellung nicht einen höheren theoreti schen Überblick, sondern leitet den Leser mit einfacher mathematischer oder anschaulicher mechanischer Begründung auf einen Weg, der in praktischen Schwingungsfragen zur zahlenmäßigen Lösung, mindestens aber zu einer guten Annäherung der "exakten" Lösung führt. Eine Fülle von Beispielen und Aufgaben regt dazu an, die Beherrschung der dargelegten Rechenverfahren zu erproben und zu vertiefen. Aus diesen Gründen erfolgte die Übersetzung in die deutsche Sprache. Inzwischen ist die amerikanische Ausgabe mit großem Erfolg im Hochschulunterricht eingesetzt worden. Den deutschen Leser inter essiert vielleicht der Hinweis, daß der Hochschulunterricht in Amerika von der europäischen Art sehr verschieden ist. Die Vorlesungen werden nach einem bestimmten "Textbuch" gelesen.