Notes on Linear Vibration Theory
Transcript of Notes on Linear Vibration Theory
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Delft University of Technology Faculty of Mechanical Engineering and Marine Technology Mekelweg 2, 2628 CD Delft
Notes on Linear Vibration Theory Compiled by : P.Th.L.M. van Woerkom Section : WbMT/Engineering Mechanics Date : 10 January 2003 E-mail address: [email protected] * Body Blade picture taken from: http://www.starsystems.com.au
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2 LIST OF CONTENTS
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3 LIST OF CONTENTS 1. INTRODUCTION 2. A SELECTION OF USEFUL LITERATURE PART ONE: MATHEMATICS FOR FINITE-DIMENSIONAL SYSTEMS 3. DYNAMICS OF A RIGID BODY IN ONE-DIMENSIONAL SPACE 3.1 Linear motion 3.2 Angular motion 4. DYNAMICS OF A RIGID BODY IN TWO-DIMENSIONAL SPACE 4.1 General motion 4.2 Special cases 5. DECOMPOSITION OF A PERIODIC SIGNAL 5.1 Fourier series 5.2 Least square approximation 6. SYSTEM OF LINEAR ALGEBRAIC EQUATIONS 6.1 Problem statement 6.2 Gaussian elimination procedure 6.3 Cramer's rule 6.4 Homogeneous case 6.5 Eigenproblem 6.6 Special case: symmetric matrix 7. SINGLE SECOND-ORDER ORDINARY DIFFERENTIAL EQUATION 7.1 Problem statement 7.2 Complementary solution 7.3 Particular solution 7.4 Resonance
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4 8. SYSTEM OF SECOND-ORDER ORDINARY DIFFERENTIAL EQUATIONS 8.1 Problem statement 8.2 Complementary solution 8.3 Particular solution 8.4 Initial conditions 8.5 Damping 8.6 Special case: non-symmetric matrices 8.7 Effect of application of an impulse PART TWO: INFINITE-DIMENSIONAL SYSTEMS 9. NOTES ON THE EULER-BERNOULLI BEAM 9.1 Pure bending 9.2 Static equilibrium under various loads 9.3 Static displacement field 10. EQUATIONS OF MOTION OF CONTINUUM BODIES - A 10.1 Dynamics of a string
- direct derivation - limit derivation
10.2 Dynamics of a rod - direct derivation - limit derivation
10.3 Dynamics of a shaft - direct derivation - influence of geometry
11. EQUATIONS OF MOTION OF CONTINUUM BODIES - B 11.1 Dynamics of a beam - direct derivation - limit derivation 11.2 Beam design parameters 11.3 Vanishing bending stiffness 12. SECOND-ORDER PARTIAL DIFFERENTIAL EQUATION 12.1 Problem statement 12.2 Free motion 12.3 Forced motion 12.4 Initial conditions
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5 13. FOURTH-ORDER PARTIAL DIFFERENTIAL EQUATION 13.1 Problem statement 13.2 Free motion 13.3 Forced motion 13.4 Initial conditions 13.5 More properties of mode shapes PART THREE: FINITE ELEMENT MODELLING 14. PRINCIPLE OF VIRTUAL WORK 14.1 The Virtual Work formalism 14.2 References 14.3 Dynamics in second-order canonical from 14.4 Euler-Lagrange formalism 14.5 Hamilton's formalism 15. FINITE ELEMENT MODELLING: SINGLE ROD ELEMENT 15.1 Dynamics of an infinitesimal mass element 15.2 Development of the Lagrange expression 15.3 Assumed displacement field 15.4 Evaluation of the Lagrange expression 15.5 Design parameters 15.6 On Galerkin's method 16. FINITE ELEMENT MODELLING: SINGLE BEAM ELEMENT 16.1 Dynamics of an infinitesimal mass element 16.2 Development of the Lagrange expression 16.3 Assumed displacement field 16.4 Evaluation of the Lagrange expression 16.5 Design parameters 17. FINITE ELEMENT MODELLING: STRUCTURES WITH MULTIPLE ELEMENTS 17.1 Structures with multiple elements 17.2 From local coordinates to global coordinates 18. FINITE ELEMENT MODELLING: THREE-DIMENSIONAL MASSIVE BODY 18.1 Dynamics of a three-dimensional, infinitesimal mass element 18.2 Structure with material damping
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6 19. FINITE ELEMENT MODELLING: MODEL ORDER REDUCTION 19.1 Problem statement 19.2 Static condensation 19.3 Mass condensation 20. CONCLUDING REMARKS
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7 1. INTRODUCTION
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8 1. INTRODUCTION Within the realm of Mechanical Engineering the subject of "Dynamics" is of considerable importance. Dynamics describes the interplay between loads and motion. Given external loads produce motion, to be determined. Conversely, given a motion, one may wish to determine the loads responsible for that motion. External loads produce motion. Motion, in turn, produces inertial loads. As a result, the loads within the system vary during motion. And they modify the motion. If the resulting system motion is to develop according to certain performance criteria, the evolution of the system motion as determined by the system dynamics must be well analyzed. Given the external loads and the resulting system motion, one may wish to determine the internal loads acting in the system, both in structural components and in devices that join those components. Also, one may wish to determine structural deformations experienced in structurally flexible system components. Students preparing for engagement in Dynamics projects are in the very first place expected to deeping their understanding of basic concepts in engineering mechanics. These concepts concern modelling and analysis in Statics (a special case of Dynamics), in Stress and Strain, and in principles of Dynamics. In addition they must now apply their earlier knowledge of and insight into mathematics concepts, especially those related to ordinary differential equations, partial differential equations, approximation theory, and numerical integration. Indeed, Dynamics relies heavily on mathematics. Therefore the engagement in research in Dynamics requires not only good mathematical abilities but at the same time sufficient self-discipline and a burning desire towards understanding nature and technology. Mechanical vibrations cover a large part of the entire field of Dynamics. Mechanical vibrations are present everywhere in daily life. Mechanical vibrations are the fluctuations of a mechanical system about its equilibrium configuration. - Vibrations may be sought for. Examples are vibrations of musical instruments, vibrations of equipment to help improve the condition of the human body, vibrations of transportation equipment, vibrations required in the operation of extremely accurate (atomic) microscopes, vibrations of sensors and motors on micro- and nano-scale. - Vibrations may be uncalled for and even be a nuisance. Examples are vibrations of chimneys and bridges and skyscrapers and high-voltage lines in the wind, mechanical vibrations as well as the resulting noise experienced by a human in an automobile or train or airplane or ship, vibrations experienced by manufacturing equipment (lathe, grinder, steel mill, wafer stepper) and by production equipment (oil-drillstrings, pipes carrying liquids), vibrations in mechatronic equipment during heavy-duty operations, vibrations in structures leading to failure to satisfy performance criteria if not leading to catastrophic break-up.
Clearly: vibrations galore.
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9 Vibrations must be analyzed, and were and when necessary effective measures must be taken to modify those vibrations. To take measures towards modification, one must first attempt to understand that which one is trying to modify. In the present course the assiduous student will be given a helping hand to assist him in the acquisition of that understanding. The present Course Notes on Dynamics address the following topics: - vibrations of systems with a single degree-of-freedom (planar translation or rotation) - vibrations of systems with multiple degrees-of-freedom (discrete systems in planar translation and/or rotation) - vibrations of continuum systems (modelled exactly) - vibrations of continuum systems (modelled as a collection of finite elements). In all cases treated the equations of motion will be linear; an approximation usually valid for small amplitudes of displacements. The course on Dynamics is best studied using a textbook as reference material. An attractive list of possible Course Textbooks is contained in Chapter Two. Of the books listed there, especially the books by D.J. Inman and by S.G. Kelly should be mentioned. These two books make extensive use of numerical computations with MATLAB (Student Edition, version 5). The appropriate script files that come with those books are either to be downloaded through Internet (for Inman's book) or are contained in a CD-ROM provided with the textbook (Kelly's book). For the present course the teacher will use Kelly's book as Course Textbook. The Course Notes presented here serve to provide the student with a compact summary of applicable mechanical and mathematical concepts. Its objectives are: - to clarify or amplify mathematical concepts already presented in earlier courses on Linear Algebra and on Differential Equations; - to clarify or amplify engineering mechanics concepts already presented in earlier courses on Statics, Elasticity Theory, and Dynamics; - to clarify, amplify, and extend the material in the Course Textbook. However, the course notes presented therefore DO NOT replace the Course Textbook. In addition, the student is to develop insight and experience by energetically trying his hand at dynamics exercises. These exercises can be found e.g., in the Course Textbook, in the book by Meriam and Kraige (Vol. 2, chapter 8), and on Blackboard (worked-out exam assignments). The following activities are ESSENTIAL if the student is to master the subject: - clear-minded attendance of the classes, actively writing comments in his own course notebook; - thorough study of the relevant material in the Course Textbook; - thorough study of the relevant material in the present Course Notes; - energetic development of experience in solving recommended dynamics exercises.
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10 We now sketch the "landscape" surveyed in the present Course Notes: - chapter 2 contains a list of recommended literature for background study or for further study. These may also be found to constitute a source of much inspiration to the assidious reader. Two outstanding books in the context of the present course are those by Inman and by Kelly. Of these, the book by Kelly has been selected as Course Textbook for the present course. - chapters 3 and 4 develop the equations of motion (dynamics equations) for rigid bodies displaying pure linear motion and pure angular motion, and for those rigid bodies moving in a single, inertially fixed plane (thereby displaying up to three degrees-of-freedom). - an important case of system excitation is that in which a periodic load acts on the system. In chapter 5 it is shown how a periodic signal (such as a periodically varying external load) can be decomposed into an infinite series of harmonic excitation terms (Fourier decomposition). For linear systems, the response to a series of excitation terms is equal to the sum of the responses of the system to each of those excitation terms separately. As the case of excitation by a single harmonic term will be worked out in detail in later chapters, the extension to excitation by more general, periodic signals then becomes immediate. - chapter 6 investigates the solution of a system of linear algebraic equations. The results obtained are fundamental for the study of the dynamics of systems with multiple degrees-of-freedom (cf. chapters 8, 12, 13, 14, 15, and 16). - in chapter 7 the solution of a single, linear, second-order, ordinary differential equation is developed in detail. The results obtained are fundamental to the study of the dynamics of all systems studied in these course notes. - in chapter 8 the solution of a system of linear, second-order, ordinary differential equations is developed in detail. The results obtained are fundamental to the study of the dynamics of all multi-degree-of- freedom systems studied in these course notes. - chapter 9 considers the bending of a slender, prismatic beam. The results obtained are used in chapters 10, 13, and 15. - in chapter 10 the equations of motion of several continuum bodies are derived. The derivation is always carried out in a direct manner; in some cases however also by considering the continuum body as the limit case of a collection of many very small rigid bodies connected by very stiff linear springs. Bodies considered are the string (or cable, displaying small transverse motion), the straight rod (or bar, displaying small longitudinal extension only), and the straight shaft (a straight rod displaying small torsion only). - in chapter 11 the equation of motion of another important continuum body is developed: the initially straight beam (displaying small transverse displacement only). - in chapter 12 the solution to a second-order partial differential equation is developed. The specific differential equation is the one arising in the motion of strings, rods, and shafts.
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11 - in chapter 13 the solution to a fourth-order partial differential equation is developed. The specific differential equation is the one arising in the motion of beams. - in chapter 14 the principle of virtual work is revisited. Here it is introduced with an eye to application to the analysis of the dynamics of structures obtained through finite element modelling. The principle of virtual work underlies various dynamics formalisms, such as the Euler-Lagrange formalism and the Hamilton formalism. Parenthetically we show that the development of the latter two formalisms is not necessary and in fact rather circuitous. Furthermore, it will be seen that the application of the principle of virtual work naturally leads to a formulation that would also result from the more contrived Galerkin approach involving certain "weighting functions" (see Section 15.6). - in chapter 15 the subject of finite element modelling is introduced. For tutorial reasons the discussion is restricted to a single, nominally straight rod modelled as a single finite element only. The reason for this choice is that in this way the amount of space dedicated in these course notes to the finite element subject remains moderate while physical insight is maximized. - in chapter 16 the subject of finite element modelling is again introduced. For tutorial reasons the discussion is restricted to a single, nominally straight beam modelled as a single finite element only. The reason for this choice is again that in this way the amount of space dedicated in these course notes to the finite element subject remains moderate while physical insight is maximized. - in chapter 17 the concept of finite element modelling is applied to structures consisting of multiple rod elements and/or multiple beam elements. - in chapters 16 and 17 only simple structural components were considered. Rods deform only in the direction of their longitudinal axis; beams deform only in the direction perpendicular to their longitudinal axis. These are idealizations. The general case, displaying deformation in three spatial directions simultaneously, is introduced in chapter 18. In addition, the possibility of including material damping is introduced. - in all cases the resulting equations of motion are of the second-order, linear, ordinary type. Generally these differential equations are solved with the aid of numerical integration techniques. Treatment of the subject of numerical integration is beyond the scope of the present course notes. However: in general it can be said (somewhat roughly) that numerical stability of the numerical solution increases for given numerical values for integration parameters if the maximum value of the eigenfrequencies in the system is "sufficiently low". Therefore, one would like to throw away system components displaying high eigenfrequencies. Moreover, may of those high-frequency components will display relatively large numerical errors. Little or nothing will be lost by throwing them out. Also, by throwing away those high-frequency components, computational effort per integration step will be reduced. Chapter 19 outlines two commonly used techniques for reducing the complexity of the system equations (mainly by throwing away the high frequency system components). - chapter 20 contains some concluding remarks.
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12 2. A SELECTION OF USEFUL LITERATURE
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13 2. A SELECTION OF USEFUL LITERATURE Bathe, K.-J. and Wilson, E.L. Numerical Methods in Finite Element Analysis. Prentice-Hall, Inc., Englewood Cliffs, N.J., 1976. Benaroya, H. Mechanical Vibration: Analysis, Uncertainties, and Control. Prentice-Hall, Upper Saddle River, N.J., 1997. Blevins, R.D. Formulas for Natural Frequency and Mode Shape. Krieger Publishing Company, Malabar, Florida, 1993. Boyce, W.E. and DiPrima, R.C. Elementary Differential Equations and Boundary Value Problems, 6th edition. J. Wiley and Sons, N.Y., 1996. Brebbia, C.A., Tottenham, A., Warburton, G.B., Wilson, J.M. and Wilson, R.R. Vibrations of Engineering Structures. Lecture Notes in Engineering, Vol. 10, Springer-Verlag, Berlin, 1985. Clark, S.K. Dynamics of Continuous Elements. Prentice-Hall, Inc., Englewood Cliffs, N.J., 1972. Clough, R.W. and Penzien, J. Dynamics of Structures, 2nd edition. McGraw-Hill, Inc., N.Y., 1993. Craig, R.R., Jr. Structural Dynamics: an Introduction to Computer Methods. J. Wiley and Sons, N.Y., 1981. Fagan, M.J. Finite Element Analysis - Theory and Practise. Longman, Harlow, Essex, U.K., 1999. Gatti, P.L. and Ferraro, V. Applied Structural and Mechanical Vibrations: Theory, Measurements and Measuring Instrumentation. Spon, London, 1999. Gear, C.W. Numerical Initial Value Problems in Ordinary Differential Equations. Prentice-Hall, Inc., Englewood Cliffs, N.J., 1971.
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14 Géradin, M. and Rixen, D.J. Mechanical Vibrations: Theory and Application to Structural Dynamics. Wiley, Chichester, 1994. Gere, J.M. and Timoshenko, S.P. Mechanics of Materials, 4th SI edition. Stanley Thornes Publishers, Ltd., Cheltenham, Gloucester, UK, 1999. Hadley, G. Linear Algebra. Addison-Wesley Publ. Co., Inc., Reading, Mass., 1961. den Hartog, J.P. Mechanical Vibrations. Dover Publications, Inc., N.Y., 1984. Hofman, G.E. Eindige Elementen Methode, deel 2. Nijgh & Van Ditmar, Rijswijk, 1996. Inman, D.J. Engineering Vibration, 2nd edition. Prentice-Hall, Upper Saddle River, N.J., 2000. (Remark: software for the execution of the exercises in the book may be downloaded from the website http://www.cs.wright.edu/people/faculty/jslater/vtoolbox/vtoolbox.html) Kelly, S.G. Fundamentals of Mechanical Vibrations, 2nd edition. McGraw-Hill International Editions, Boston, Mass., 2000. (Remark: software for the execution of the exercises in the book is contained in a CD-ROM that is provided with the book.) Meirovitch, L. Elements of Vibration Analysis. McGraw-Hill Kogakusha, Ltd, Tokyo, 1975. Meirovitch, L. Computational Methods in Structural Dynamics. Sijthoff and Noordhoff, Alphen aan de Rijn, The Netherlands, 1980. Meirovitch, L. Fundamentals of Vibrations. McGraw-Hill International Edition, Boston, Mass., 2001. Meriam, J.L. and Kraige, L.G. Engineering Mechanics, Vol. 1: Statics, 4th edition. J. Wiley and Sons, N.Y., 1998.
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15 Meriam, J.L. and Kraige, L.G. Engineering Mechanics, Vol.2: Dynamics, 4th edition. J. Wiley and Sons, N.Y., 1998. Rao, S.S. Mechanical Vibrations, 3rd edition. Addison-Wesley Publ. Co., Reading, Mass., 1995. Thomson, W.T. and Dahleh, M.D. Theory of Vibration with Applications, 5th edition. Prentice-Hall, Upper Saddle River, N.J., 1998. Timoshenko, S. and Young, D.H. Vibration Problems in Engineering, 3rd edition. D. van Nostrand Company, Inc., Princeton, N.J., 1955. Timoshenko, S., Young, D.H. and Weaver, W., Jr. Vibration Problems in Engineering, 4th edition. J. Wiley and Sons, N.Y., 1974. Tongue, B.H. Principles of Vibration. Oxford University Press, N.Y., 1996.
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16Delft University of Technology Faculty of Mechanical Engineering and Marine Technology Mekelweg 2, 2628 CD Delft
Notes on Linear Vibration Theory
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PART ONE: MATHEMATICS FOR FINITE-DIMENSIONAL SYSTEMS
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17 3. DYNAMICS OF A RIGID BODY IN ONE-DIMENSIONAL SPACE
3.1 Linear motion 3.2 Angular motion
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24 4. DYNAMICS OF A RIGID BODY
IN TWO-DIMENSIONAL SPACE
4.1 General motion 4.2 Special cases
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32 5. DECOMPOSITION OF A PERIODIC SIGNAL
5.1 Fourier series 5.2 Least square approximation
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40 6. SYSTEM OF LINEAR ALGEBRAIC EQUATIONS
6.1 Problem statement 6.2 Gaussian elimination procedure 6.3 Cramer's rule 6.4 Homogeneous case 6.5 Eigenproblem 6.6 Special case: symmetric matrix
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Delft University of Technology Faculty of Mechanical Engineering and Marine Technology Mekelweg 2, 2628 CD Delft
Notes on Linear Vibration Theory Compiled by : P.Th.L.M. van Woerkom Section : WbMT/Engineering Mechanics Date : 10 January 2003 E-mail address: [email protected] * Body Blade picture taken from: http://www.starsystems.com.au
*
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2 7. SINGLE SECOND-ORDER ORDINARY DIFFERENTIAL EQUATION
7.1 Problem statement 7.2 Complementary solution 7.3 Particular solution 7.4 Resonance
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24 8. SYSTEM OF SECOND-ORDER ORDINARY DIFFERENTIAL EQUATIONS
8.1 Problem statement 8.2 Complementary solution 8.3 Particular solution 8.4 Initial conditions 8.5 Damping 8.6 Special case: non-symmetric matrices 8.7 Effect of application of an impulse
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Delft University of Technology Faculty of Mechanical Engineering and Marine Technology Mekelweg 2, 2628 CD Delft
Notes on Linear Vibration Theory
Compiled by : P.Th.L.M. van Woerkom Section : WbMT/Engineering Mechanics Date : 10 January 2003 E-mail address : [email protected] * Body Blade picture taken from: http://www.starsystems.com.au
*
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LIST OF CONTENTS
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LIST OF CONTENTS 1. INTRODUCTION 2. A SELECTION OF USEFUL LITERATURE PART ONE: MATHEMATICS FOR FINITE -DIMENSIONAL SYSTEMS 3. DYNAMICS OF A RIGID BODY IN ONE-DIMENSIONAL SPACE 3.1 Linear motion 3.2 Angular motion 4. DYNAMICS OF A RIGID BODY IN TWO-DIMENSIONAL SPACE 4.1 General motion 4.2 Special cases 5. DECOMPOSITION OF A PERIODIC SIGNAL 5.1 Fourier series 5.2 Least square approximation 6. SYSTEM OF LINEAR ALGEBRAIC EQUATIONS 6.1 Problem statement 6.2 Gaussian elimination procedure 6.3 Cramer's rule 6.4 Homogeneous case 6.5 Eigenproblem 6.6 Special case: symmetric matrix 7. SINGLE SECOND-ORDER ORDINARY DIFFERENTIAL EQUATION 7.1 Problem statement 7.2 Complementary solution 7.3 Particular solution 7.4 Resonance
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8. SYSTEM OF SECOND-ORDER ORDINARY DIFFERENTIAL EQUATIONS 8.1 Problem statement 8.2 Complementary solution 8.3 Particular solution 8.4 Initial conditions 8.5 Damping 8.6 Special case: non-symmetric matrices 8.7 Effect of application of an impulse PART TWO: INFINITE-DIMENSIONAL SYSTEMS 9. NOTES ON THE EULER-BERNOULLI BEAM 9.1 Pure bending 9.2 Static equilibrium under various loads 9.3 Static displacement field 10. EQUATIONS OF MOTION OF CONTINUUM BODIES - A 10.1 Dynamics of a string
- direct derivation - limit derivation
10.2 Dynamics of a rod - direct derivation - limit derivation
10.3 Dynamics of a shaft - direct derivation - influence of geometry
11. EQUATIONS OF MOTION OF CONTINUUM BODIES - B 11.1 Dynamics of a beam - direct derivation - limit derivation 11.2 Beam design parameters 11.3 Vanishing bending stiffness 12. SECOND-ORDER PARTIAL DIFFERENTIAL EQUATION 12.1 Problem statement 12.2 Free motion 12.3 Forced motion 12.4 Initial conditions
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13. FOURTH-ORDER PARTIAL DIFFERENTIAL EQUATION 13.1 Problem statement 13.2 Free motion 13.3 Forced motion 13.4 Initial conditions 13.5 More properties of mode shapes PART THREE: FINITE ELEMENT MODELLING 14. PRINCIPLE OF VIRTUAL WORK 14.1 The Virtual Work formalism 14.2 References 14.3 Dynamics in second-order canonical from 14.4 Euler-Lagrange formalism 14.5 Hamilton's formalism 15. FINITE ELEMENT MODELLING: SINGLE ROD ELEMENT 15.1 Dynamics of an infinitesimal mass element 15.2 Development of the Lagrange expression 15.3 Assumed displacement field 15.4 Evaluation of the Lagrange expression 15.5 Design parameters 15.6 On Galerkin's method 16. FINITE ELEMENT MODELLING: SINGLE BEAM ELEMENT 16.1 Dynamics of an infinitesimal mass element 16.2 Development of the Lagrange expression 16.3 Assumed displacement field 16.4 Evaluation of the Lagrange expression 16.5 Design parameters 17. FINITE ELEMENT MODELLING: STRUCTURES WITH MULTIPLE ELEMENTS 17.1 Structures with multiple elements 17.2 From local coordinates to global coordinates 18. FINITE ELEMENT MODELLING: THREE-DIMENSIONAL MASSIVE BODY 18.1 Dynamics of a three -dimensional, infinitesimal mass element 18.2 Structure with material damping
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19. FINITE ELEMENT MODELLING: MODEL ORDER REDUCTIO N 19.1 Problem statement 19.2 Static condensation 19.3 Mass condensation 20. CONCLUDING REMARKS
-0-0-0-0-0-
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Delft University of Technology Faculty of Mechanical Engineering and Marine Technology Mekelweg 2, 2628 CD Delft
Notes on Linear Vibration Theory
*
PART TWO:
INFINITE-DIMENSIONAL SYSTEMS
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9. NOTES ON THE EULER-BERNOULLI BEAM
9.1 Pure bending 9.2 Static equilibrium under various loads 9.3 Static displacement field
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10. DYNAMICS OF CONTINUUM BODIES - A
10.1 Dynamics of a string - direct derivation - limit derivation 10.2 Dynamics of a rod - direct derivation - limit derivation 10.3 Dynamics of a shaft - direct derivation - influence of geometry
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11. DYNAMICS OF CONTINUUM BODIES - B
11.1 Dynamics of a beam - direct derivation - limit derivation 11.2 Beam design parameters 11.3 Vanishing bending stiffness
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12. SECOND-ORDER PARTIAL DIFFERENTIAL EQUATION
12.1 Problem statement 12.2 Free motion 12.3 Forced motion 12.4 Initial conditions
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13. FOURTH-ORDER PARTIAL DIFFERENTIAL EQUATION
13.1 Problem statement 13.2 Free motion 13.3 Forced motion 13.4 Initial conditions 13.5 More properties of mode shapes
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Delft University of Technology Faculty of Mechanical Engineering and Marine Technology Mekelweg 2, 2628 CD Delft
Notes on Linear Vibration Theory
Compiled by : P.Th.L.M. van Woerkom Section : WbMT/Engineering Mechanics Date : 10 January 2003 E-mail address : [email protected] * Body Blade picture taken from: http://www.starsystems.com.au
*
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3 LIST OF CONTENTS
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4 LIST OF CONTENTS 1. INTRODUCTION 2. A SELECTION OF USEFUL LITERATURE PART ONE: MATHEMATICS FOR FINITE -DIMENSIONAL SYSTEMS 3. DYNAMICS OF A RIGID BODY IN ONE-DIMENSIONAL SPACE 3.1 Linear motion 3.2 Angular motion 4. DYNAMICS OF A RIGID BODY IN TWO-DIMENSIONAL SPACE 4.1 General motion 4.2 Special cases 5. DECOMPOSITION OF A PERIODIC SIGNAL 5.1 Fourier series 5.2 Least square approximation 6. SYSTEM OF LINEAR ALGEBRAIC EQUATIONS 6.1 Problem statement 6.2 Gaussian elimination procedure 6.3 Cramer's rule 6.4 Homogeneous case 6.5 Eigenproblem 6.6 Special case: symmetric matrix 7. SINGLE SECOND-ORDER ORDINARY DIFFERENTIAL EQUATION 7.1 Problem statement 7.2 Complementary solution 7.3 Particular solution 7.4 Resonance
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5 8. SYSTEM OF SECOND-ORDER ORDINARY DIFFERENTIAL EQUATIONS 8.1 Problem statement 8.2 Complementary solution 8.3 Particular solution 8.4 Initial conditions 8.5 Damping 8.6 Special case: non-symmetric matrices 8.7 Effect of application of an impulse PART TWO: INFINITE-DIMENSIONAL SYSTEMS 9. NOTES ON THE EULER-BERNOULLI BEAM 9.1 Pure bending 9.2 Static equilibrium under various loads 9.3 Static displacement field 10. EQUATIONS OF MOTION OF CONTINUUM BODIES - A 10.1 Dynamics of a string
- direct derivation - limit derivation
10.2 Dynamics of a rod - direct derivation - limit derivation
10.3 Dynamics of a shaft - direct derivation - influence of geometry
11. EQUATIONS OF MOTION OF CONTINUUM BODIES - B 11.1 Dynamics of a beam - direct derivation - limit derivation 11.2 Beam design parameters 11.3 Vanishing bending stiffness 12. SECOND-ORDER PARTIAL DIFFERENTIAL EQUATION 12.1 Problem statement 12.2 Free motion 12.3 Forced motion 12.4 Initial conditions
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6 13. FOURTH-ORDER PARTIAL DIFFERENTIAL EQUATION 13.1 Problem statement 13.2 Free motion 13.3 Forced motion 13.4 Initial conditions 13.5 More properties of mode shapes PART THREE: FINITE ELEMENT MODELLING 14. PRINCIPLE OF VIRTUAL WORK 14.1 The Virtual Work formalism 14.2 References 14.3 Dynamics in second-order canonical from 14.4 Euler-Lagrange formalism 14.5 Hamilton's formalism 15. FINITE ELEMENT MODELLING: SINGLE ROD ELEMENT 15.1 Dynamics of an infinitesimal mass element 15.2 Development of the Lagrange expression 15.3 Assumed displacement field 15.4 Evaluation of the Lagrange expression 15.5 Design parameters 15.6 On Galerkin's method 16. FINITE ELEMENT MODELLING: SINGLE BEAM ELEMENT 16.1 Dynamics of an infinitesimal mass element 16.2 Development of the Lagrange expression 16.3 Assumed displacement field 16.4 Evaluation of the Lagrange expression 16.5 Design parameters 17. FINITE ELEMENT MODELLING: STRUCTURES WITH MULTIPLE ELEMENTS 17.1 Structures with multiple elements 17.2 From local coordinates to global coordinates 18. FINITE ELEMENT MODELLING: THREE-DIMENSIONAL MASSIVE BODY 18.1 Dynamics of a three -dimensional, infinitesimal mass element 18.2 Structure with material damping
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7 19. FINITE ELEMENT MODELLING: MODEL ORDER REDUCTION 19.1 Problem statement 19.2 Static condensation 19.3 Mass condensation 20. CONCLUDING REMARKS
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8 Delft University of Technology Faculty of Mechanical Engineering and Marine Technology Mekelweg 2, 2628 CD Delft
Notes on Linear Vibration Theory
*
PART THREE:
FINITE ELEMENT MODELLING
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9 14. PRINCIPLE OF VIRTUAL WORK
14.1 The Virtual Work formalism 14.2 References 14.3 Dynamics in second-order canonical form 14.4 Euler-Lagrange formalism 14.5 Hamilton's formalism
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15. FINITE ELEMENT MODELLING: SINGLE ROD ELEMENT
15.1 Dynamics of an infinitesimal mass element 15.2 Development of the Lagrange expression 15.3 Assumed displacement field 15.4 Evaluation of the Lagrange expression 15.5 Design parameters 15.6 On Galerkin's method
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16. FINITE ELEMENT MODELLING: SINGLE BEAM ELEMENT
16.1 Dynamics of an infinitesimal mass element 16.2 Development of the Lagrange expression 16.3 Assumed displacement field 16.4 Evaluation of the Lagrange expression 16.5 Design parameters
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17. FINITE ELEMENT MODELLING: STRUCTURES WITH MULTIPLE ELEMENTS
17.1 Structures with multiple elements 17.2 From local coordinates to global coordinates
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18. FINITE ELEMENT MODELLING: THREE-DIMENSIONAL MASSIVE BODY
18.1 Dynamics of a three-dimensional, infinitesimal mass element 18.2 Structure with material damping
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19. FINITE ELEMENT MODELLING: MODEL ORDER REDUCTION
19.1 Problem statement 19.2 Static condensation (Guyan, Guyan/Irons) 19.3 Mass condensation
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20. CONCLUDING REMARKS
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20. CONCLUDING REMARKS The present Course Notes have been compiled to address the following topics: - vibrations of systems with a single degree-of-freedom (planar translation or rotation) - vibrations of systems with multiple degrees-of-freedom (discrete systems in planar translation and/or rotation) - vibrations of continuum systems (modelled exactly) - vibrations of continuum systems (modelled as a collection of finite elements). In all cases treated the resulting equations of motion are linear; an approximation usually valid for small amplitudes of displacements. The present Course Notes have been compiled to provide the student with a compact summary of applicable mechanical and mathematical concepts. Its objectives are: - to clarify or amplify mathematical concepts already presented in earlier courses on Linear Algebra and on Differential Equations; - to clarify or amplify engineering mechanics concepts already presented in earlier courses on Statics, Elasticity Theory, and Dynamics; - to clarify, amplify, and extend the material in the Course Textbook. Educational experience has shown that the following activities are ESSENTIAL if the student is to master the subject: - clear-minded attendance of the classes, actively writing comments in his own course notebook; - thorough study of the relevant material in the Course Textbook; - thorough study of the relevant material in the present Course Notes; - energetic development of experience in solving recommended dynamics exercises. The present document has the character of "Course Notes" - where it should be emphasized that these notes are quite informal and quite concise. They are quite informal indeed, for several reasons. They are meant only to provide the reader with material to quickly refresh his memory. And they have been compiled only rather recently and would therefore still need to undergo a considerably number of rewriting cycles before they might attain any status of authority. It follows that the teacher would welcome any comments from the users of this document. Please, send in any comments you might have! As explained, the document does not replace textbooks. Textbooks are more verbose, they explain more, they explain better, they have nicer figures and graphs, and they have been tested on their didactic quality. Nor does the possession of this document obviate the need to actually attend the classes where the teacher attempts to convey the essence of the material to the student. On the contrary! An assembly of a good teacher with good students is characterized by creative interaction, and on the basis of that interaction the teacher may amplify, modify, or even delete material that might appear too simple or possibly too advanced for those particular students.
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Students are expected to study thoroughly with the aid of an appropriate textbook or several appropriate textbooks. Consider purchasing the recommended Course Textbook (the one by S.G. Kelly). Buy that textbook or buy another appropriate textbook that may be more to your liking. And consult good textbooks in your university libraries. Keep in mind that a professional engineer carefully builds up his professional library, starting with textbooks from his university courses! Students generally study better when they also attend classes, as explained above. Attending classes increases the efficiency of study. And students can generally truly master the course material only through dedicated and rigorous exercising, through additional exercising, and through even more exercising. To master the material of this course on one of the true foundations of engineering one has to study efficiently and intensely. There is no other way. And it is a beneficial way. Studying efficiently and intensely is beneficial because courses dealing with the true foundations of engineering are fascinating, challenging, and rewarding. They are rewarding because they open a vast horizon for further exploration, they sharpen the mind, and they increase one's competitiveness as a young engineer. Solidly mastering the foundations of engineering provides the young engineer with solid foundations for his future career - in engineering of any type or wherever it will lead him.
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