- Engineering Vibration
- Mechanical Vibrations
- Vibration Analysis
- Advance Theory of Vibrations
- Applied Dynamics and Vibration
- Machinery Vibration and Diagnostics
- Vibration and Noise Control
1. Engineering Vibration
|1."Mechanical Vibrations and Noise Engineering" by Ambedkar A G|
“Mechanical Vibrations and Noise Engineering” Book Review: This book starts with fundamentals and basic concepts on vibrations. This book covers undamped free vibrations, damped free vibrations, harmonically excited vibrations, systems with two degrees of freedom, multidegree of freedom systems, whirling motion and critical speeds, continuous systems and sound level. This book provides review questions at the end of the chapter.
|2."Advanced Vibration Analysis (Mechanical Engineering)" by S Graham Kelly|
“Advanced Vibration Analysis (Mechanical Engineering)” Book Review: The book is based on general Mathematics. This book starts with the explanation of the physics of dynamic systems with particles, rigid bodies and deformable bodies. The book deals with fundamentals of discrete and continuous systems including their results. The book covers topics like rigid bodies, deformable bodies and problems on a single degree of freedom. This book covers the analysis of linear operators, formulation of the differential equations, self-adjoint linear operators, inertia operators and the stiffness operators. This book also explains the free responses of linear conservative systems and free response of non-self-adjoint systems. The development of linear operators, differential equations including inertia operator and stiffness operator are discussed here. The book provides solved problems with proper reference for better understanding of learners.
|3."Mechanical Vibrations" by RAO|
“Mechanical Vibrations” Book Review: This book is written in a student friendly manner. This book covers impact, some problems on vibrations, multidegree of freedom systems, systems with infinite degrees of freedom and eigenvalue problems. This book provides problems and references at the end of each chapter.
|4."Engineering Vibration" by Inman|
“Engineering Vibration” Book Review: This book is designed for undergraduates students in mechanical engineering, civil engineering, aerospace engineering and mechanics. This book covers traditional design oriented topics and introduction of modal analysis. This book discusses the use of softwares like MATLAB, mathcad and mathematica.
|5."Vibration and Noise Engineering" by Naresh Tandon and B C Nakra|
“Vibration and Noise Engineering” Book Review: This book starts with the fundamentals of mechanical vibrations and noise engineering. This book provides many worked-out examples which help in conceptual understanding. This book is designed for senior postgraduates and senior undergraduates of engineering.
|7."Theory of Vibrations with Applications" by William T Thomson|
|8."Mechanical Vibrations (Dover Civil and Mechanical Engineering)" by J P Den Hartog|
“Mechanical Vibrations (Dover Civil and Mechanical Engineering)” Book Review: This book covers kinematics of vibration, degrees of freedom and gyroscopic effects. This book deals with relaxation oscillations, Rayleigh’s method,natural frequencies of torsional vibration, karman vortices and systems with variable elasticity. This book is designed for mechanical students of engineering.
|9."Vibration's and Waves" by A P French|
“Vibration’s and Waves” Book Review: This book covers periodic motions, superposition of periodic motions, free vibrations of physical systems, forced vibrations and resonance and coupled oscillators and normal modes. This book also deals with normal modes of continuous systems, progressive waves and boundary effects and interference. This book provides problems at the end of each chapter.
|10."Gear Noise and Vibration (Mechanical Engineering)" by J Derek Smith|
“Gear Noise and Vibration (Mechanical Engineering)” Book Review: This book covers high and low contact ratio gears, lightly loaded gears, planetary and spilt drives and transmission error. This book provides solutions to gear design obstacles and current challenges.
2. Mechanical Vibrations
|1."Fundamental of Mechanical Vibration" by S Graham Kelly|
|2."Mechanical Vibrations" by Singireru S Rao|
|3."Mechanical Vibrations" by Kelly|
“Mechanical Vibrations” Book Review: The book provides a detailed analysis of mechanical vibrations, covering equal parts of theory as well as applications. Comprising a total of thirteen detailed chapters, the book builds on the basic components before gradually moving on to the advanced ones. The coverage of the book includes Random Vibrations, Nonlinear Vibrations, Finite Element Method, Vibrations of Continuous Systems, Forced Vibrations of MDOF Systems, Modelling of MDOF Systems, Two Degree of Freedom Systems, and Harmonic Excitation of SDOF Systems etc. This textbook presents a more application oriented format on dynamic mechanical systems. It summarizes the principles of dynamics and their applications to derive mathematical models of dynamic mechanical systems. The coverage of the book includes Dynamics, terminology and notation of basic concepts, engineering design etc. The book lays equal concentration on theory as well as applications and provides summaries of key concepts at the end of each chapter. Each chapter consists of theory supplemented with illustrative examples, numerical examples, figures and diagrams, problems and solutions and chapter summary mentioning the key concepts covered in the chapter.
|4."MECHANICAL VIBRATIONS" by V P SINGH|
|5."Mechanical Vibrations" by G K Grover|
|6."Mechanical Vibrations" by Mehta J S and Kailey A S|
“Mechanical Vibrations” Book Review: This book covers the basic concepts of mechanical vibrations. It lays equal stress on theory as well as practice. Each chapter is supplemented with a number of solved examples for better comprehension. The coverage of the book includes Undamped Free vibrations of Single Degree of Freedom Systems, Damped Free Vibrations of Single Degree of Freedom systems and Concepts and Terminology of key points. The book will benefit undergraduate students in Mechanical, Civil, Aeronautical Engineering and any other related field in developing the conceptual understanding of this subject.
|7."Mechanical VIbrations" by Thammaiah Gowda and D V Girish|
“Mechanical VIbrations” Book Review: The book discusses the analysis of vibrations in mechanical systems. The book provides a comprehensive discussion on Simple Harmonic Motion and presents a detailed analysis of single-degree, two degree and multi-degree-freedom systems. It covers both theory and mathematical treatment. The text is presented in a way that makes it easy to understand the linkage between the different concepts covered in the textbook. The physical significance and real world interpretations of several concepts are highlighted. Solved Examples and numerical problems are provided in sufficient numbers for an extensive practice.
|8."Mechanical Vibration" by William J Palm|
“Mechanical Vibration” Book Review: The book provides a succinct overview of vibrations theory and applications. It provides an introduction to the key concepts of mechanical vibrations. The coverage of the book sweeps over a wide range of topics surrounding dynamics and applied differential equations. The applications of the concepts include vehicle suspension systems, vibration isolators and absorbers designed to minimize the effects of vibration on people and machines. The book can benefit undergraduate students in mechanical engineering, aerospace engineering, engineering mechanics and related fields.
|10."Vibrations in Mechanical Systems: Analytical Methods and Applications" by Maurice Roseau|
“Vibrations in Mechanical Systems: Analytical Methods and Applications” Book Review: This textbook takes a detailed look at vibrations in mechanical systems and the methods of analysis along with their applications. It is organized into a total of twelve number of chapters, covering various aspects through theory, mathematical treatment and detailed analysis. The various chapters present in the book are Vibration in Lattices, Gyroscopic Coupling and Its Applications, The stability of Operation of Non-Conservative Mechanical Systems, Vibrations of Elastic Solids, Modal Analysis and Vibration of Structures, Synchronization Theory, Rotating Machinery etc. The book includes references for further reading.
3. Vibration Analysis
|1."Vibration and Acoustics: Measurement and Signal Analysis" by C Sujatha|
“Vibration and Acoustics: Measurement and Signal Analysis” Book Review: The book is designed for postgraduate students of the field of vibration and its measurements including signal analysis techniques. The book comes up with vibrations transducers and exciters including vibration measurement. Topics like Techniques of diagnostic machineries, modal analysis, common acoustic measurements etc. The book deals with measurements and signal analysis of the vibrational system. The book provides several mathematical examples that help students for better understanding including fundamental concepts.
|2."Elements of VIbration Anal" by Meirovitch|
|3."Mechanical Vibration: Analysis, Uncertainties, and Control, Third Edition (Mechanical Engineering)" by Haym Benaroya and Mark L Nagurka|
“Mechanical Vibration: Analysis, Uncertainties, and Control, Third Edition (Mechanical Engineering)” Book Review: This book is designed for graduate engineering students of the field of vibration theory and its application. The book comes up with basic concepts of vibration, control and analysis. The book contains detailed information on vibrating systems using MATLAB including advance and specific tools. Topics like dynamic knowledge, mechanics of materials, differential equations are also discussed here. The book deals with necessary mathematics and formulas to represent them. The following book provides mathematical formulas including several solved questions with proper reference that help students understand the concepts much better.
|5."Solving Vibration Analysis Problems Using MATLAB" by V Dukkipati Rao|
|6."Vibration Analysis and Predictive Technologies in Reliability Engineering" by Johnnie R Ciulla Jr MSME|
“Vibration Analysis and Predictive Technologies in Reliability Engineering” Book Review: The following book is based on vibration analysis and its maintenance by providing industrial flooring.
|7."Machinery Vibration: Measurement and Analysis" by Victor Wowk|
“Machinery Vibration: Measurement and Analysis” Book Review: The book is useful for vibrational analysis and its measurement including Solved technical problems. It contains detailed information on balancing, resonance, coverage of FFT spectrum etc. The book comes up with several historical coverage and structures of mechanical devices like fans, motors and pumps.
|8."Case Histories in Vibration Analysis and Metal Fatigue for the Practicing Engineer" by Anthony Sofronas|
“Case Histories in Vibration Analysis and Metal Fatigue for the Practicing Engineer” Book Review: The book is designed for Undergraduate students of the field of mechanics. The book is mainly focused on analytical methods and basic guidelines for problem solving. The book covers topics like the analytical approach of subjects, fixed and rotating equipment including pressure vessels. The book is written in a simple manner including solved problems for better understanding.
|9."Machine Vibration Analysis and Health Monitoring" by Mustapha Mjit|
“Machine Vibration Analysis and Health Monitoring” Book Review: The book is mainly focused on methods of fault detection and applications of vibration analysis in Ocean turbines. The book covers topics like analysis of Machine vibration and finite element modelling. The book contains useful information on development of two lab VIEW models and methods of online condition monitoring and many more. The book comes up with basics of vibrational signals including conditions of turbines.
|10."Vibration Analysis, Instruments, and Signal Processing" by Jyoti Kumar Sinha|
“Vibration Analysis, Instruments, and Signal Processing” Book Review: The book is designed for vibration and dynamics including measurements, tests and several applications. The book covers topics like vibration based analysis which highlights on theory, instruments, experiments etc. Topics like instrumentations, methods of signal processing, combined analysis and several case studies are also conferred here. The book provides basic theory and detailed information on several types of instruments and their measurement techniques that help students understand the concepts much better.
4. Advance Theory of Vibrations
|1."Advances on Analysis and Control of Vibrations: Theory and Applications" by Mauricio Zapateiro de la Hoz and Francesc Pozo|
“Advances on Analysis and Control of Vibrations: Theory and Applications” Book Review: This book is a collection of research works on vibration analysis and control. New methodologies that help us understand and mitigate this phenomenon are explained in the book with examples. This book is divided into two sections. The first part consists of new advances on vibration analysis while the second part consists of a series of case studies illustrating novel techniques on vibration control. Areas of application such as vehicle suspension systems, wind turbines and civil engineering structures are also elaborated. New theoretical developments on vibration analysis and control, vibration control by exploiting nonlinear influence in the frequency domain, LPV Gained-Scheduled observer-based state feedback for active control of harmonic disturbances with time-varying frequencies, vibration control case studies, transverse vibration control, dynamic responses are some of the main topics covered in the book. The book is preferable to the Mechanical students and people related to this field can also read this book.
|2."Vibration Technology: Theory and Practice" by K V Frolov and I F Goncharevich|
“Vibration Technology: Theory and Practice” Book Review: The book focuses on mechanical, electrical and aerospace engineers. Basic concepts like the formation of rapid and slow circulations in disperse mediums subjected to vibrations, working of a vibration machine, impacts of vibration (positive and negative), history of vibration technology, recent advancements, major areas where vibration technology is used the most are discussed with schematic diagrams, latest statistics, and examples. Experimental data that discloses fine mechanisms by which vibration affects the dispersion medium in the process is shown. The book also discusses the latest advancements in technology that are made on vibrational analysis, and case studies are included wherever needed.
|4."Theory and Applications of Mechanical Vibrations" by Dilip Kumar Adhwarjee|
“Theory and Applications of Mechanical Vibrations” Book Review: The book presents the concepts with proper examples and diagrammatic representations. The book consists of topics like fundamentals of vibrations, free vibrations of single degree of freedom system, damped free vibrations, harmonically excited vibrations, rotor unbalance, two degrees of freedom systems, coordinate coupling, multidegree of freedom systems, vibrations of the continuous system, transient vibrations, non-linear vibrations, and Lagrange’s equations. Researchers, mechanical, and chemical engineers can read this book.
|5."Mechanical Vibrations: Theory and Applications" by Tse Morse|
“Mechanical Vibrations: Theory and Applications” Book Review: The book focuses on solving all the problems that are related to vibration and also the problems related to failures in the industry. Vibration in mechanical systems is thoroughly discussed in the book. The book starts with introducing readers with Simple Harmonic Motions in which it tells about single-degree, two-degree and multi-degree freedom systems. It provides plenty of examples and solved & unsolved numericals that will help in better understanding of the concepts given in the book. The physical significance and interpretations of essential concepts are focused on in the book. There’re separate chapters on Exact Analysis and Numerical Methods of Multi-Degree- Freedom Systems. Few topics’ lists that are covered in the book are Vibrations of Continuous Systems, Transient and Random Vibrations, damped free vibrations, harmonically excited vibrations, and rotor unbalance. There are multiple-choice questions after every chapter. The book can be recommended to researchers, mechanical, and aerospace engineers.
|6."Molecular Vibrations: The Theory of Infrared and Raman Vibrational Spectra (Dover Books on Chemistry" by E Bright Wilson|
“Molecular Vibrations: The Theory of Infrared and Raman Vibrational Spectra
(Dover Books on Chemistry)” Book Review: The mathematics that is used in any of the concepts in the book is in a simple language such that even a beginner in maths can solve the numerical easily. The numerical questions are given along with the Multiple Choice Questions so that the readers can recall the concepts that they have studied. Focus is given on vibrational analysis of polyatomic molecules. The reader is first introduced to all the basic concepts and mathematical tools and then gradually moves towards the main features of the theory and its methods. The theory of molecular vibrations and the application of wave mechanics, mathematical methods for handling the mathematical problems. Rules for Vibrational selection and intensities, secular determinant solving methods, and a sample vibrational analysis of the molecule of benzene are few topics contained in the book.
|7."Theory of Vibration with Application" by Thompson|
“Theory of Vibration with Application” Book Review: Researchers, mechanical, and aerospace engineers and students related to this field can prefer this book. Vibration theory and its engineering applications are very well explained and the book focuses on the phenomenon. Many example applications to typical problems faced by practising engineers are given in the book with proper solutions. A chapter on computer methods is given in the book, and a disk with four basic Fortran programs covering most of the calculations encountered in vibration problems is provided. A new chapter on computational methods is presented in the fourth volume of this book. An example on rotor balancing, shock spectrum and isolation, methods of assumed modes, suspension bridges. Application of the continuous system theory to simplified models for the calculation of natural frequencies is explained in the fourth volume.
|8."Mechanical Vibration Practice with Basic Theory" by V Ramamurti|
“Mechanical Vibration Practice with Basic Theory” Book Review: All the students who have courses related to vibration, researchers, scientists and chemical & mechanical engineers can read this book. The basic theory at the start of the book helps in removing the idea that the topic is mathematical. It presents only those mathematical tools that are most appropriate for solving practical problems. The book includes only the specific materials that a mechanical engineering industry requires. The book is specific to the types of problems that should be given and also the concepts. It also includes computer programs that can be used to solve the problems. Nomenclature, Simplified Model, Two Degree of Freedom Systems, Multidegree of Freedom Systems, Numerical Methods, Energy Methods, Continuous Systems, Finite Element Method, Diagnostics and Case Studies are some of the important topics covered. This book provides only the most relevant mathematical tools. The book can be read by Mechanical engineers, students related to this field, and aerospace engineers.
|9."Random Vibrations: Theory and Practice (Dover Books on Physics)" by Paul H Wirsching and Thomas L Paez|
“Random Vibrations: Theory and Practice (Dover Books on Physics)” Book Review: The book adopts an unconventional approach and presents the techniques simply and systematically that can easily be applied to the analysis of vibration of mechanical and structural systems. The book is useful for graduate students and mechanical, structural, and aerospace engineers. The book contains topics like Random Vibrations, Theory and Practice, random vibration development with applications to design, and random signal analysis. Practitioners who wish to investigate special topics can refer to this book. Other than just explaining the concept, the book also explains about the ways by which fatigue and fracture brought on by random vibration stresses can be avoided and describes how to analyze random signals obtained for field and test measurements. Almost all the concepts in the book are explained with proper diagrams, charts, tables, figures and examples wherever necessary.
|10."Theory of Vibration: An Introduction (Mechanical Engineering Series)" by A A Shabana|
“Theory of Vibration: An Introduction (Mechanical Engineering Series)” Book Review: The book starts with the Basic Definitions of the topics, then it moves towards Elements of the Vibration Models, Particle Dynamics, Systems of Particles, Dynamics of Rigid Bodies, Solution of the Vibration Equations, Initial Conditions, Stability of Motion, Free Vibration of Single Degree of Freedom Systems, Continuous Systems, Equivalent Systems, Structural Damping, Coulomb Damping, Self-Excited Vibration, Motion Control, Impact Dynamics, Forced Vibration, Differential Equation of Motion, Forced Undamped Vibration, Free Longitudinal Vibrations, Free Torsional Vibrations, Free Transverse Vibrations, Orthogonality of the Eigenfunctions, Forced Longitudinal and Torsional Vibrations. The book provides a clear understanding of both physical and mathematical, of the fundamental theory of vibration and its applications. The methods & processes that can be used for the analysis of vibration of mechanical and structural systems are given in the book. The book is based on conservation of energy, and Lagrangian dynamics. It is suitable for a one-semester course on vibrations. New concepts are elaborated in simple terms and explain procedures for solving problems in considerable detail.
5. Applied Dynamics and Vibration
|1."Mathematical Models: Mechanical Vibrations, Population Dynamics, and Traffic Flow (Classics in Applied Mathematics)" by Richard Haberman|
“Mathematical Models: Mechanical Vibrations, Population Dynamics, and Traffic Flow (Classics in Applied Mathematics)” Book Review: This book uses mathematical techniques with observations and experiments to give a detailed look at models for mechanical vibrations, population dynamics, and traffic flow. It highlights the mathematical formulation of the problems and the presentation of the result. It explains the nonlinear aspects of ordinary differential equations and develops the concepts of equilibrium solutions and their stability. It introduces phase plane methods for the nonlinear pendulum and for predator-prey and competing species models.
|2."Chaotic Vibrations: An Introduction for Applied Scientists and Engineers" by Francis C Moon|
“Chaotic Vibrations: An Introduction for Applied Scientists and Engineers” Book Review: This book provides new mathematical ideas in nonlinear dynamics into a simple language which engineers and scientists can understand easily. It contains different examples and applications of chaotic dynamics in the real world. It explains how to perform both computer and physical experiments in chaotic dynamics. The book covers topics including Poincare maps, fractal dimensions and Lyapunov exponents. It contains a glossary of chaotic dynamic terms, a list of computer experiments. The book also details a demonstration experiment on chaotic vibrations.
|3."Mechanical Vibrations" by Tse F S and Morse I E and Hinkle R T|
“Mechanical Vibrations” Book Review: This book provides a comprehensive overview on mechanical vibrations. It discusses one- and multi-degree-of-freedom systems. It provides information on natural frequencies and modes of vibrations, resonance, beat phenomenon, effect of damping, and much more. It covers applications to practical problems, and methods to avoid excessive vibrations. It discusses Lagrange’s equations in detail. This book is focused on students and teachers in the numerous fields of science and engineering especially mechanical engineering.
|4."Introductory Course on Theory and Practice of Mechanical Vibrations" by Rao J S and Gupta K|
Book Review: The book provides concepts free and forced vertex, transient vibrations of single and multiple degrees of freedom, lumped parameter systems and its applications. Various types of numerical methods are also presented in matrix form. The book also contains information on finite element method for vibration problem. Chapters on nonlinear and random vibration analysis of different mechanical systems is also included in the book. Experimental methods on vibration analysis are also discussed in detail. Importance is given to modelling of engineering systems.
|5."Mechanical Vibrations" by Den Hartog J P|
Book Review: The author explains complex problems in a simple method supported by different illustrative models. The various topics illustrated in the book are kinematics of vibration, degrees of freedom, gyroscopic effects, relaxation oscillations, karman vortices and systems with variable velocity. There are various number of problems with answers which will test the understandability of the student in every section. The book contains easy to learn derivation and clear understanding of the concepts along with explanation.
6. Machinery Vibration and Diagnostics
|1."Machinery Noise and Diagnostics" by R H Lyon|
Book Review: This book explains that the forces and motions within machines are the main source of ound and vibration that are produced by the machine. The book also demonstrates various mechanisms like gears, electromagnetics, flow and combustion techniques which are involved in the production of forces and motions. The book also illustrates how the machine responds to excitation and also how that resultant vibrations are involved in radiation of sound. The book also explains the determination of mechanical conditions of machine with the help of sounds and vibrations.
|2."Fundamentals of Mechanical Vibrations" by S G Kelly|
“Fundamentals of Mechanical Vibrations” Book Review: The book is designed for the students in their higher education i.e. post-graduation and some researchers use it as a reference book. The first edition was very helpful, the second edition doesn’t fail to top the scoreboard. Its approach of using theoretical as well as practical knowledge helps the readers to master the topic. It is divided into chapters and is perfectly linked with one another. The book provides a lot of problem statements on the topic Matlab and Mathcad and also gives step-by-step solutions to each of them.
|3."Vibration Problems in Engineering" by S P Timoshenko and W Weaver and D H Young|
Book Review: This book demonstrates the vibration theory, various concepts related to vibration theory and provides an introduction to the most powerful and modern computational techniques. The book describes the normal mode technique that is used for linear multi degree and infinite degree of freedom systems. The book also illustrates the numerical methods that are used for nonlinear systems. The book also contains a chapter on finite element method that shows the discretion of continuous system which further results in simplification of analysis.
|4."Modal Testing: Theory and Practice" by D J Ewins|
Book Review: This book very nicely describes all the measures and steps that are involved in planning, executing and interpreting the results of a modal test. The book also describes the latest advancements and the newer technologies that have emerged in the past decade. The book also contains new chapters on rotating machinery and usage of scanning laser vibrometer. The book also makes too much effort to ensure that the readers understand the physics involved in the stages as well as the mathematical concepts.
|5."Machinery Vibration : Measurement and Analysis" by Victor Wowk|
“Machinery Vibration: Measurement and Analysis” Book Review: The book is mainly designed for students completing their higher education i.e. post-graduation. It is useful for a wide range of people in the industry viz. technians, engineers, specialists and all others responsible for the installation, maintenance of equipment and method improvement. The text provides a detailed coverage of a lot of topics like mass balancing methods in use today. It includes discussion on balancing with no instruments, four-run method, single-plane method and many more. It also presents techniques and troubleshooting methods for any machine based problems.
|6."Machinery Vibration and Rotordynamics" by John M Vance and Fouad Y Zeidan|
“Machinery Vibration and Rotordynamics” Book Review: The book is mainly designed for students pursuing their bachelors in engineering. It presents a detailed discussion over all types of turbines used in various offshore and onshore vehicles. It is a very handy and easy to access reference book for newcomers and the experts in the field. The book has a very detailed index which helps the user to easily navigate through the text. It throws light over many topics like the applications of machinery vibration in a single volume, case studies of vibration problems in several different types of machines as well as computer simulation models. The field is highly specialized and the book keeps abreast with the amount of knowledge to be given through the text.
|7."Flow-Induced Pulsation and Vibration in Hydroelectric Machinery" by Andr Coutu|
“Flow-Induced Pulsation and Vibration in Hydroelectric Machinery” Book Review: The book is mainly designed for engineering students, it is also referred to by some of the well known in the field. The text mainly focuses on the issues created by the variations in the internal flow in hydroelectric power plants. It is very smartly divided into chapters and is also linked in a logical order. It acts as a guide explaining various physical mechanisms and their side effects. The text uses a lot of tables and charts for better explanation. It also includes diagrams for the readers, this makes a positive impact on the readers and they are able to grasp the content quickly.
|8."Vibration and Wear in High Speed Rotating Machinery" by F Pina Da Silva and Julio M Montalvao E Silva|
“Vibration and Wear in High Speed Rotating Machinery” Book Review: The book is used by the students completing their post-graduation in the field and is used by some of the well-known researchers in the field. It throws light on different phenomena. As the rotating machinery functions at high speed they have to deal with a lot of wear and tear, it provides detailed arguments on how to deal with these issues. The book is divided into chapters for better understanding and each chapter deals with the different types of issues which are faced in the industry. It also provides the readers with a lot of case studies which help them understand the issues. It uses a very basic yet very scientific language which has proved to be reader friendly.
|9."Rotating Machinery, Structural Health Monitoring, Shock and Vibration" by Proulx|
“Rotating Machinery, Structural Health Monitoring, Shock and Vibration” Book Review: The book is designed mainly for students pursuing their post-graduation in this field and is also used as a reference book by many researchers. The text is the fifth edition but it doesn’t fail to keep abreast with the current scenario in the industry and hence includes the issues faced by the industrialist. It compiles the most important thirty five contribution by the researchers and engineers. It includes case studies on applied aspects of Structural Health Monitoring and Rotating Machinery. The book provides a lot of diagrams for better imagination, pictorial representation makes it easy for a reader to understand the text.
|10."Mechanical Vibrations and Industrial Noise Control" by L G Lasithan|
“Mechanical Vibrations and Industrial Noise Control” Book Review: The book is recommended for the students completing their higher education in this field. The book tries to emphasize on the amount of noise pollution happening in the industry due to the vibrations and hence provides solutions for the same in order to reduce pollution. It contains a very detailed index making it very easy for a reader to traverse through the book. The text is logically divided into chapters which starts with introduction to vibration and goes in depth up to random vibrations. It also provides a lot of problem statements at the end of every chapter, testing the understanding of the reader.
7. Vibration and Noise Control
|1."Mechanical Vibrations and Industrial Noise Control" by Lasithan|
“Mechanical Vibrations and Industrial Noise Control” Book Review: The book is designed for undergraduate students of the field of mechanical engineering. The book comes up with the basic phenomenon of vibration technology. Topics like conventional vibration phenomenon including harmonic excitation, general force response, nonlinear analysis, random time functions are conferred here. The book contains detailed information on vibration measuring instruments and its application in Engineering. The book consists of 14 chapters from basic Introduction of vibration to index of noise appendix. The book provides detailed information about every chapter inclined worked out and practical examples that help students understand the concepts much better.
|2."Mechanical Vibrations and Noise Control" by Singh|
“Mechanical Vibrations and Noise Control” Book Review: The book is based on vibration. The following book covers topics like basic concepts of vibration, undamped and damped free vibrations, 2d freedom systems, miscellaneous methods, random vibration and many other topics.
|3."Noise and Vibration Control Engineering: Principles and Applications" by Istvan L Ver and Leo L Beranek|
“Noise and Vibration Control Engineering: Principles and Applications” Book Review: The book is based on vibration control engineering. The book covers topics like sound propagation, sound absorbing materials, sound generation, structural damping, conditioning systems etc. The book is written in a simple way providing practical designs and essential desk reference for better understanding of learners.
|4."Noise and VIbration Control" by Munjal|
“Noise and VIbration Control” Book Review: The book is useful for Undergraduate students of mechanical engineering. Topics like vibration tolerance, lesser wear and tear, longer fatigue life are discussed here. The book contains industrial automotive noise and its measurements and controlling systems. The following book comes up with physical practicing problems with solved examples that help students understand the concepts much better.
|5."Handbook of Noise and Vibration Control" by Malcolm J Crocker|
“Handbook of Noise and Vibration Control” Book Review: This book is designed for vibration control engineering. The book contains important information on notice and vibration control. The book mainly focused on industrial applications and industrial needs. The book contains important sources of information for better understanding of professionals.
|6."Mechanical Vibration Practice and Noise Control" by V Ramamurti|
“Mechanical Vibration Practice and Noise Control” Book Review: The book is designed for noise control and torsional critical speeds of industrial noise. The book covers topics like both metallic and nonmetallic isolators, machine foundations and vibration. Topics like multi degree freedom systems, method of finite element diagnosis, balancing field, polar area moment of inertia mass moment etc. The book comes up with exercise after every chapter with hints that help students understand the concepts much better.
|7."Railway Noise and Vibration: Mechanisms, Modelling and Means of Control" by David Thompson|
“Railway Noise and Vibration: Mechanisms, Modelling and Means of Control” Book Review: The book is designed for development of high sensitive intercity traffic in railway and Better systems to avoid noise problems. The book contains detailed information on practical examples on noise control technology including rolling noise, ground borne noise and curve squeal. The following book comes up with theoretical knowledge and working samples of noise control technology. The book also provides several case studies and real life applications for better understanding of learners.
|8."Control of Noise and Structural Vibration: A MATLAB®-Based Approach" by Qibo Mao and Stanislaw Pietrzko|
“Control of Noise and Structural Vibration: A MATLAB®-Based Approach” Book Review: The book is based on using MATLAB to solve problems related to undesirable noise generation. The book covers topics like vibration analysis, placement of sensor and actuator etc. The book deals with extensive use of MATLAB, circuits for notice and vibration suppression, model of loudspeaker microphone and many more. The following book provides an exercise at the end of the chapter and tutorial features that help students understand the concepts much better.
|9."A Practical Guide to Noise and Vibration Control for HVAC Systems" by Mark E Schaffer|
|10."Sound, Noise and Vibration Control" by Lyle F Yerges|
“Sound, Noise and Vibration Control” Book Review: The following book is based on basic fundamentals of sound in the language of non specialist.