##### Vibration of Structures and Machines [E-Book] : Practical Aspects / by Giancarlo Genta.
Personal Name(s): Genta, Giancarlo, (author) New York, NY : Springer, 1993 XXV, 452 p. online resource. englisch 9781475711110 10.1007/978-1-4757-1111-0 Full Text
• 1. Discrete Linear Systems
• 1.1 Systems with a single degree of freedom
• 1.2 Systems with many degrees of freedom
• 1.3 State space
• 1.4 Free behaviour
• 1.5 Uncoupling of the equations of motion
• 1.6 Excitation due to the motion of the constraints
• 1.7 Forced oscillations with harmonic excitation
• 1.8 System with structural damping
• 1.9 Systems with frequency dependent parameters
• 1.10 Co-ordinate transformation based on Ritz vectors
• 1.11 Structural modifications
• 1.12 Parameter identification
• 1.13 Laplace transforms, block diagrams and transfer functions
• 1.14 Response to non-harmonic excitation
• 1.15 Short account on random vibrations
• 1.16 Concluding examples
• 1.17 Exercises
• 2. Continuous Linear Systems
• 2.1 General considerations
• 2.2 Beams and bars
• 2.3 Flexural vibration of rectangular plates
• 2.4 Propagation of elastic waves in taut strings and pipes
• 2.5 The assumed modes methods
• 2.6 Lumped parameters methods
• 2.7 The finite element method
• 2.8 Reduction of the number of the degrees of freedom
• 2.9 Exercises
• 3. Nonlinear Systems
• 3.1 Linear versus nonlinear systems
• 3.2 Equation of motion
• 3.3 Free oscillations of the undamped system.
• 3.4 Forced oscillations of the undamped system.
• 3.5 Free oscillations of the damped systems
• 3.6 Forced oscillations of the damped system
• 3.7 Parametrically excited systems
• 3.8 An outline on chaotic vibrations
• 3.9 Exercises
• 4. Dynamic Behaviour of Rotating Machinery
• 4.1 Rotors and structures
• 4.2 Vibration of rotors: the Campbell diagram
• 4.3 Forced vibrations of rotors: critical speeds
• 4.4 Fields of instability
• 4.5 The linear “Jeffcott rotor”
• 4.6 Model with 4 degrees of freedom: gyroscopic effect
• 4.7 Dynamic study of rotors with many degrees of freedom
• 4.8 Non isotropic systems
• 4.9 Introduction to nonlinear rotordynamics
• 4.10 Rotors on Hydrodynamic bearings (oil whirl and oil whip)
• 4.11 Flexural vibration dampers
• 4.12 Signature of rotating machinery
• 4.13 Rotor balancing
• 4.14 Exercises
• 5. Dynamic Problems of Reciprocating Machines
• 5.1 Specific problems of reciprocating machines
• 5.2 “Equivalent system” for the study of torsional vibrations
• 5.3 Computation of the natural frequencies
• 5.4 Forced vibrations
• 5.5 Torsional instability of crank mechanisms
• 5.6 Dampers for torsional vibrations
• 5.7 Experimental measurements of torsional vibrations
• 5.8 Axial vibrations of crankshafts
• 5.9 Short outline on balancing of reciprocating machines
• 5.10 Exercises
• 6. Short Outline on Controlled and Active Systems
• 6.1 General considerations
• 6.2 Control systems
• 6.3 Controlled discrete linear systems
• 6.4 Modal approach to structural control
• 6.5 Dynamic study of rotors on magnetic bearings
• 6.6 Exercises
• Appendix. Solution Methods
• A.1 General considerations
• A.2 Solution of linear sets of equations
• A.3 Computation of the eigenfrequencies
• A.4 Solution of nonlinear sets of equations
• A.5 Numerical integration in time of the equation of motion.