Dynamics Of Machinery Theory And Applications
Contents
- Purpose and Structure of the Dynamics of Machinery
- Model Generation and Parameter Identification
- Classification of Calculation Models
- General Principles
- Examples
- Determination of Mass Parameters
- Overview
- Mass and Position of the Center of Gravity
- Moment of Inertia about an Axis
- Moment of Inertia Tensor
- Spring Characteristics
- General Context
- Machine Elements, SubAssemblies
- Rubber Springs
- Problems P to P
- Solutions S to S
- Damping Characteristics
- General Context
- Methods for Determining Characteristic Damping
- Parameters
- Empirical Damping Values
Characteristic Excitation Parameters
- Periodic Excitation
- Transient Excitation
- Problems P to P
- Solutions S to S
- Dynamics of Rigid Machines
- Introduction
- Kinematics of a Rigid Body
- Coordinate Transformations
- Kinematic Parameters
- Kinematics of the GimbalMounted Gyroscope
- Problems P and P
- Solutions S and S
- Kinetics of the Rigid Body
- Kinetic Energy and Moment of Inertia Tensor
- Principles of Linear Momentum and of Angular Momentum
- Kinetics of Edge Mills
- Problems P and P
- Solutions S and S