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Introduction to Vibration control

Strategies & Steps in Vibration Control

Strategies, Active control, Detuning & Decoupling

Viscous damping model

Coulomb & Hysteretic damping model

Energy Dissipation in Structural Materials

Material Selection Criterion against Damping

Design for Enhanced Material Damping

Linear Viscoelastic Materials & Models

Maxwell & 3-Parameter Models

Complex modulus & Applications of VEM

Proof mass Actuator

Springs for Vibration Isolation

Basics of Dynamic Vibration Absorber

Modelling of Dynamic Vibration Absorber

Introduction to Active Vibration Control

Basics of Classical Control System

Basics of State Space Control

Controllability & Observability of System

Full State Feedback Control

SMSS Laboratory Demonstration

Description:

PRE-REQUISITES: Basics of Mechanical Vibrations INTENDED AUDIENCE: B.Tech/M.Tech/PhD INDUSTRIES APPLICABLE TO: Oil, Space, Manufacturing industries COURSE OUTLINE: Vibration is undesirable in most engineering systems. The adverse effects of vibration include fatigue failure, severe damages due to resonance, malfunctioning of sensitive instruments/systems, loss of accuracy of work-piece due to vibration of machine tools, etc. This course will give a brief overview of the various strategies to control such vibrations in systems and the principles behind them.

Principles of Vibration Control

NPTEL

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#Engineering #Mechanical Engineering

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