Dynamics and Control of Structures A Modal Approach 1st edition by Wodek Gawronski ISBN 1682515532 ‎ 978-1682515532
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Authors:Wodek K. Gawronski , Series:Mechanical engineering [101] , Tags:Engineering; Mechanical Engineering , Author sort:Gawronski, Wodek K. , Languages:Languages:eng , Published:Published:Jan 2013 , Publisher:Springer , Comments:Comments:All rights reserved. This work may not be translated or copied in whole or in part without the written permission of the publisher Springer Science+Business Media, LLC, except for brief excerpts in connection with reviews or scholarly analysis. Use in connection with any form of information storage and retrieval, electronic adaptation, computer software, or by similar or dissimilar methodology now known or hereafter developed is forbidden. The use of general descriptive names, trade names, trademarks, etc., in this publication, even if the former are not especially identified, is not to be taken as a sign that such names, as understood by the Trade Marks and Merchandise Marks Act, may accordingly be used freely by anyone.
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ISBN 10: 1682515532
ISBN 13: 978-1682515532
Author: Wodek Gawronski
This book addresses problems in structural dynamics and control encountered in such applications as aerospace structures, robotics, earthquake-damage prevention, and active noise suppression. The treatment combines concepts from control engineering (such as system norms and controllability) and structural engineering (such as modal properties and modal models), thereby both revealing new structural properties as well as giving new insights into well-known laws. The techniques discussed will make it easier for structural engineers to design control systems and for control engineers to deal with structural dynamics.
Dynamics and Control of Structures A Modal Approach 1st Table of contents:
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Introduction to Structural Dynamics
1.1. Overview of Structural Dynamics
1.2. Importance of Modal Analysis in Structural Engineering
1.3. Applications of Dynamic Systems in Engineering
1.4. Objectives and Structure of the Book -
Chapter 1: Fundamentals of Vibration Theory
2.1. Basic Concepts of Vibration
2.2. Types of Vibrations in Structures
2.3. Free and Forced Vibrations
2.4. Simple Harmonic Motion and Damping
2.5. Mathematical Modeling of Vibrating Systems -
Chapter 2: Modal Analysis and Eigenvalue Problems
3.1. Definition of Modes in Vibrating Systems
3.2. Modal Decomposition of Structural Responses
3.3. Eigenvalue and Eigenvector Analysis
3.4. Solving the Eigenvalue Problem for Structural Systems
3.5. Modal Shapes and Frequencies -
Chapter 3: Structural Dynamic Systems and Modeling
4.1. Modeling of Continuous and Discrete Systems
4.2. Mathematical Models for Multi-Degree-of-Freedom Systems
4.3. The Equation of Motion for Structural Systems
4.4. Mass, Damping, and Stiffness Matrices
4.5. Analysis of Simple Structural Models -
Chapter 4: Dynamic Response of Structures
5.1. Response to Harmonic and Impulsive Forces
5.2. Dynamic Amplification and Resonance Effects
5.3. Transient and Steady-State Responses
5.4. Forced Response of Multi-Degree-of-Freedom Systems
5.5. Modal Superposition Method for Response Analysis -
Chapter 5: Control of Structural Vibrations
6.1. Introduction to Structural Control
6.2. Passive vs. Active Control Methods
6.3. Control Techniques for Vibration Mitigation
6.4. Design of Dampers and Isolation Systems
6.5. Adaptive and Smart Materials for Vibration Control -
Chapter 6: Modal Control Techniques
7.1. Modal Control Theory Overview
7.2. Feedback Control for Structural Systems
7.3. Modal Shaping and Control
7.4. Optimal Control of Vibration Modes
7.5. Case Studies of Modal Control Applications -
Chapter 7: Numerical Methods in Structural Dynamics
8.1. Introduction to Computational Methods
8.2. Finite Element Method (FEM) for Structural Dynamics
8.3. Modal Analysis Using FEM
8.4. Numerical Simulation of Dynamic Responses
8.5. Applications of Numerical Methods in Modal Analysis -
Chapter 8: Earthquake Engineering and Seismic Control
9.1. Seismic Vibrations and Structural Response
9.2. Earthquake-Induced Dynamic Loading
9.3. Modal Analysis for Seismic Design
9.4. Seismic Control Systems for Buildings and Bridges
9.5. Case Studies in Earthquake-Resilient Structures -
Chapter 9: Vibration Testing and Experimental Modal Analysis
10.1. Techniques for Vibration Testing
10.2. Experimental Modal Analysis (EMA)
10.3. Measurement Tools and Equipment for Vibration Testing
10.4. Identifying Modal Parameters from Experimental Data
10.5. Case Studies in Structural Testing -
Chapter 10: Advanced Topics in Modal Control
11.1. Smart Structures and Control Systems
11.2. Nonlinear Modal Control
11.3. Control of Complex Multi-Modal Systems
11.4. Real-Time Modal Control Applications
11.5. Future Trends in Modal Control and Structural Dynamics -
Conclusion: The Future of Structural Dynamics and Control
12.1. Challenges in Structural Vibration Control
12.2. Emerging Technologies in Modal Analysis
12.3. The Role of Modal Control in Sustainable Structures
12.4. Future Research Directions in Structural Dynamics
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