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Vibration Control

Vibration Control. Instructor: Prof. S. P. Harsha, Department of Mechanical and Industrial Engineering, IIT Roorkee. The main objective of course is to present fundamentals to a modern treatment of vibrations, the control strategies using active and passive control methods. In this course, the design consideration of material selection, smart materials and vibration measurement techniques are also discussed. Topics covered in this course include Basic vibration control, Vibration isolation, Vibration generation mechanism, Passive vibration control, Active vibration control, and Vibration measurement. (from nptel.ac.in)

Lecture 14 - Self Excitation Vibration


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Review of Basics of Mechanical Vibrations
Lecture 01 - Basics of Vibrations for Simple Mechanical Systems
Lecture 02 - Introduction to Damping in Free and Forced Vibrations
Lecture 03 - Free and Forced Vibrations of Two Degree of Freedom Systems
Lecture 04 - Multi Degree of Freedom Systems
Basics of Vibration Control
Lecture 05 - Reduction at Source
Lecture 06 - Reduction at Source (cont.)
Lecture 07 - Reduction at Source (cont.)
Lecture 08 - Feedback Control System
Lecture 09 - Shunt Damping
Vibration Isolation
Lecture 10 - Vibration Isolation
Lecture 11 - Vibration Isolation (cont.)
Lecture 12 - Vibration Isolation (cont.)
Vibration Generation Mechanism
Lecture 13 - Source Classification
Lecture 14 - Self Excitation Vibration
Lecture 15 - Flow Induction Vibration
Lecture 16 - Field Balancing of Rigid/Flexible Rotors
Lecture 17 - Damping: Models and Measures I
Lecture 18 - Damping: Models and Measures II
Lecture 19 - Numerical Problems
Design Considerations in Material Selection
Lecture 20 - Design Sensitivity
Lecture 21 - Design Specification
Lecture 22 - Design for Enhanced Material Damping
Principles of Passive Vibration Control
Lecture 23 - Basics of Passive Vibration Control
Lecture 24 - Design of Absorber
Lecture 25 - Shock Absorber
Lecture 26 - Isolators with Stiffness and Damping
Principles of Active Vibration Control
Lecture 27 - Basics of Active Vibration Control
Lecture 28 - Piezoelectric Material
Lecture 29 - Piezoelectric Material: Applications
Lecture 30 - Piezoelectric Accelerometers
Lecture 31 - Electro-rheological (ER) Fluids
Lecture 32 - Magneto-rheological (MR) Fluids
Lecture 33 - Magneto and Electrostrictive Materials
Lecture 34 - Shape Memory Alloy
Lecture 35 - Electromagnetics
Lecture 36 - Numerical Problems
Vibration Measurement Techniques
Lecture 37 - Basics of Vibration Measurement System
Lecture 38 - Data Acquisition
Lecture 39 - Fourier Transformation
Lecture 40 - Filters