Gear Rotor Dynamics Model and Critical Speed Calculation
A MATLAB implementation for gear rotor dynamics modeling and critical speed calculation, featuring comprehensive numerical algorithms and parameter considerations.
Rotor Dynamics Major Assignment: Critical Speed Calculation for Dual-Rotor System
This is my major assignment in rotor dynamics, focusing on MATLAB implementation for calculating critical speeds of dual-rotor systems using transfer matrix methodology.
Calculating Critical Speeds of Shafts Using Transfer Matrix Method in MATLAB
Implementation of transfer matrix method in MATLAB for determining critical speeds of rotating shafts, featuring algorithm explanations and code structure description.
Transfer Matrix Method for Calculating First Three Critical Speeds in Turbine Rotor Systems
Implementation of transfer matrix method to compute the first three critical rotational speeds in turbine rotor dynamics analysis
Riccati Transfer Matrix Method Example: Calculating Critical Speed and Natural Frequencies of Large Rotors
A practical implementation of the Riccati transfer matrix method for computing critical speeds and natural frequencies in large rotor systems, with algorithm explanations and code-related considerations
Finite Element Program for Rotor Dynamics Analysis
A MATLAB-based finite element program for rotor dynamics analysis, implementing critical speed and mode shape analysis, steady-state and transient response analysis through numerical computation and eigenvalue solutions.
Transfer Matrix Method for the First Three Critical Speeds of Steam Turbine Rotor Systems
Transfer Matrix Method for Calculating the First Three Critical Speeds in Steam Turbine Rotor Systems with Code Implementation Insights