2 Days Workshop on Advanced Vibration Analysis – Theory, Hand Calculation, Simulation

Categories: Workshops

About Course

The workshop aims to cover mechanical vibration – Basic Theory and application of Finite Element Methods for Industrial Case Studies.

Understand theoretical principles of advanced vibration and the knowledge of analysing transient, nonlinear and random vibration for the practical problems.
Understand the importance of advanced vibration theory in the design of parts/component subjected to transient, nonlinear and random loads.
Application of finite element methods to solve advanced vibration problems
Knowledge of finite element analysis procedure to solve advanced vibration problems frequently encountered in industries.
Ability to identify and rectify the errors while solving dynamics problems.
Knowledge to extract the frequencies and mode shapes and interpret the results from finite element analysis.

Course Content

Introduction to Vibrations, Basic terminologies

Single Degree of Freedom Un-damped Free Vibrations

Single Degree of Freedom Damped Free Vibrations

Single Degree of Freedom of Forced Vibrations

Two Degrees of Freedom Systems

Multi Degree of Freedom Systems

Continuous System

Modal Analysis and Formulation

Harmonic Analysis

Finite Element Formulation for Harmonic Analysis

Transient Vibration Analysis Theory

Finite Element Formulation for Transient Analysis

Random Vibration – Theory

Finite Element Formulation for Random Vibration

Introduction to Advanced Topics in Dynamics

Seismic Analysis, Vibration induced Fatigue and Crack Growth, Noise and Acoustic

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A course by

Director, Research and Development

Nethra Santhosh