E-Book, Englisch, 264 Seiten, Web PDF
Gorman / Kennedy Applied Solid Dynamics
1. Auflage 2017
ISBN: 978-1-4831-0624-3
Verlag: Elsevier Science & Techn.
Format: PDF
Kopierschutz: 1 - PDF Watermark
E-Book, Englisch, 264 Seiten, Web PDF
ISBN: 978-1-4831-0624-3
Verlag: Elsevier Science & Techn.
Format: PDF
Kopierschutz: 1 - PDF Watermark
Applied Solid Dynamics covers the dynamics of solids and, in particular, some of its applications to modern systems. The book aims to help students bridge the gap between theoretical knowledge and practical application. Chapter 1 formulates the concept of dynamically equivalent systems, the use of which enables even the most complex of systems to be represented by a much simpler model, provided certain important criteria are met. Chapter 2 demonstrates the usefulness of this concept by introducing an innovative vector system for the analysis of epicyclic gear transmission. Chapter 3 investigates the dynamics of a solid body in general plane motion, and Chapter 4 demonstrates the effect of intermittent energy transfer in a reciprocating system by using turning moment diagrams and the flywheel design. The applications of friction; the problems associated with rotational out-of-balance; and the dynamics of general space motion are tackled in the next four chapters. Chapters 9-12 discuss the analysis and prediction of the vibrating response of mass and elastic systems, whether such systems are single- or multi-degree of freedom in nature or are modeled in terms of lumped to distributed parameters. The book concludes by apprising active and passive vibratory control. Mechanical engineers will find this book invaluable.
Autoren/Hrsg.
Weitere Infos & Material
1;Front Cover;1
2;Applied Solid Dynamics;4
3;Copyright Page;5
4;Table of Contents;10
5;Dedication;3
6;Preface;6
7;Chapter 1. Introduction;14
7.1;1.1 Historical review;14
7.2;1.2 Newton's three Laws of Motion;15
7.3;Problems;24
8;Chapter 2. Power transmission through gear systems;26
8.1;2.1 Introduction;26
8.2;2.2 General spur gear systems;27
8.3;2.3 Epicyclic gear system;34
8.4;Problems;41
9;Chapter 3. Dynamics of a solid body in general plane motion;44
9.1;3.1 Kinematics of general plane motion;44
9.2;3.2 Kinetics of general plane motion;54
9.3;Problems;58
10;Chapter 4. Turning moment diagrams and flywheel design;61
10.1;4.1 Turning moment diagrams;61
10.2;4.2 Flywheel design;68
10.3;Problems;73
11;Chapter 5. Applications of friction;75
11.1;5.1 Introduction;75
11.2;5.2 Belt drive systems;78
11.3;5.3 Clutch drive mechanism;84
11.4;5.4 Friction brake mechanisms;89
11.5;Problems;94
12;Chapter 6. Out-of-balance and balancing of rotating mass systems;96
12.1;6.1 Introduction;96
12.2;6.2 Out-of-balance forces and moments;96
12.3;6.3 Balancing of frame forces and frame force moments;100
12.4;6.4 Experimental method for balancing of rotodynamic machinery;104
12.5;Problems;111
13;Chapter 7. Out-of-balance and balancing of reciprocating mass systems;113
13.1;7.1 Introduction;113
13.2;7.2 Out-of-balance frame forces and moments;115
13.3;7.3 Regular in-line vertical cylinder engines;116
13.4;7.4 Regular off-line cylinder engines;120
13.5;7.5 Balancing of primary frame force and frame force moment;125
13.6;Problems;129
14;Chapter 8. Introduction to dynamics of general space motion;131
14.1;8.1 Introduction;131
14.2;8.2 Kinematic analysis;131
14.3;8.3 Kinetic analysis;133
14.4;8.4 Gyroscopes and gyroscopic torque;142
14.5;Problems;147
15;Chapter 9. Vibration of a single degree of freedom system;150
15.1;9.1 Introduction;150
15.2;9.2 Series and parallel stiffness arrangements;151
15.3;9.3 Free vibration of an undamped system;153
15.4;9.4 Free vibration of damped systems;158
15.5;9.5 Forced vibrations;163
15.6;Problems;176
16;Chapter 10. Free undamped vibration of a two degree of freedom system;180
16.1;10.1 Introduction;180
16.2;10.2 Rectilinear systems;180
16.3;10.3 Torsional systems;182
16.4;Problems;194
17;Chapter 11. Vibration of multiple degree of freedom lumped mass systems— matrix analysis;196
17.1;11.1 Introduction;196
17.2;11.2 Undamped natural frequencies and associated normal modes (eigenvalues and eigenvectors);196
17.3;11.3 Response of undamped and damped systems—modal analysis;199
17.4;11.4 Experimental determination of modal parameters;206
17.5;Problems;209
18;Chapter 12. Free vibration of continuous systems;212
18.1;12.1 Introduction;212
18.2;12.2 Transverse vibration of a string or cable;212
18.3;12.3 Longitudinal vibration of a prismatic bar;215
18.4;12.4 Torsional vibration of a uniform circular bar;219
18.5;12.5 Transverse vibration of a prismatic beam;221
18.6;12.6 Energy methods;234
18.7;12.7 Whirling of shafts;241
18.8;Problems;244
19;Chapter 13. Introduction to vibratory control;247
19.1;13.1 Introduction;247
19.2;13.2 Active vibratory control;247
19.3;13.3 Passive vibratory control;249
20;Appendix 1: Standard integrals;255
21;Appendix 2: Basic complex algebra;258
22;Appendix 3: Basic vector algebra;260
23;Index;262
