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Dynamics of structures with MATLAB® applications 1st Edition, Kindle Edition by Ashok K. Jain
دانلود رایگان ایبوک Dynamics of structures with MATLAB applications
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درباره کتاب Dynamics of structures with MATLAB applications
This book is designed for undergraduate and graduate students taking a first course in Dynamics of Structures, Structural Dynamics or Earthquake Engineering. It includes several topics on the theory of structural dynamics and the applications of this theory to the analysis of buildings, bridges, towers and other structures subjected to dynamic and earthquake forces. This comprehensive text demonstrates the applications of numerical solution techniques to a large variety of practical, real-world problems under dynamic loads.
دانلود کتاب دینامیک سازه ها با برنامه MATLAB
این کتاب برای دانشجویان مقطع کارشناسی و فارغ التحصیل دوره اول در دینامیک سازه ها، دینامیک ساختاری یا مهندسی زلزله طراحی شده است.این شامل چندین مضمون در نظریه دینامیک ساختاری و کاربرد این نظریه به تجزیه و تحلیل ساختمان ها، پل ها، برج ها و سازه های دیگر است.این متن جامع برنامه های کاربردی روش های عددی را به طیف وسیعی از مشکلات عملی و واقعی در بارهای پویا نشان می دهد.
فهرست مطالب کتاب Dynamics of structures with MATLAB applications
Table of Contents Cover Title Page Dedication Contents Preface About the Author Part 1 Single degree of Freedom Systems Chapter 1 Introduction to Structural Dynamics 1.1 Introduction 1.2 Physical and Mathematical Modelling 1.3 Discrete and Continuum Modelling 1.4 Laws of Equilibrium 1.5 Types of Dynamic Loading 1.6 Solution of Equation of Motion 1.7 Illustrative Examples Problems Chapter 2 Single Degree of Freedom System: Free Vibrations 2.1 Introduction 2.2 Single Degree of Freedom System (SDOF)34 2.3 MATLAB Applications 2.4 Illustrative Examples 2.5 Viscous Damping 2.6 Coulomb Damping Problems Chapter 3 Single Degree of Freedom System: Harmonic Loading 3.1 Introduction 3.2 Undamped Forced Vibrations 3.3 Damped Forced Vibrations 3.4 MATLAB Applications 3.5 Resonant Response 3.6 Measurement of Viscous Damping 3.7 Measurement of Coulomb Damping 3.8 Illustrative Examples Problems Chapter 4 Single Degree of Freedom System: Periodic Loading 4.1 Introduction 4.2 Fourier Series 4.3 Undamped System 4.4 Damped System 4.5 Exponential form of Fourier Series Solution 4.6 Frequency Domain Analysis 4.7 Illustrative Examples 4.8 MATLAB Applications 4.9 Human-induced Vibrations in Structures 4.10 Codal Provisions for Human Induced Vibrations 4.10.1 Natural Frequency of Steel Framed Floor System 4.10.2 IS : 800 – 2007 Code Provisions 4.10.3 ISO 2631 – 1997 Provisions 4.10.4 ISO 10137 2007 Provisions 4.10.5 Eurocode Provisions Problems References Chapter 5 Single Degree of Freedom System: Impulse Loading 5.1 Introduction 5.2 Duhamel Integral 5.3 Undamped System 5.4 Damped System 5.5 Shock Spectra 5.6 Illustrative Examples Problems References Chapter 6 Single Degree of Freedom System: Machine Vibrations 6.1 Introduction 6.2 Vibration Isolation Due to Base Excitation 6.3 Vibration Isolation Due to Rotating Unbalance 6.4 Application to Earthquake Engineering 6.5 I.S. Code on Machine Foundations 6.6 Illustrative Examples Problems References Further Reading Chapter 7 Direct Integration of Equation of Motion 7.1 Introduction 7.2 Algorithms 7.3 Constant Acceleration Method 7.4 Central Difference Method 7.5 Incremental Equation of Motion 7.6 Linear Acceleration Method 7.7 Newmark β Method 7.8 Wilson θ Method 7.9 Nonlinear Problems Problems Chapter 8 Elastic Response Spectra 8.1 Introduction 8.2 Mathematical Background 8.3 Elastic Response Spectra 8.3.1 Displacement Response Spectra 8.3.2 Velocity Response Spectra 8.3.3 Acceleration Response Spectra 8.4 Fourier Amplitude Spectra 8.5 Design Response Spectra 8.6 Housner’s Average Spectra 8.7 Tripartite Graph 8.8 Elastic Design Tripartite Spectra 8.9 Indian Code:1893 Part 1-2002253 Problems References Part 2 Multi-degree of Freedom Systems Chapter 9 Two-degree of Freedom Systems 9.1 Introduction 9.2 Undamped Free Vibrations 9.3 Undamped Forced Vibrations 9.4 Damped Forced Vibrations 9.5 Undamped Vibration Absorber 9.6 Tuned Vibration Absorber 9.6.1 Effect of Mass Ratio on the Amplitude of Primary Mass 9.6.2 Secondary Mass with Viscous Damping 9.6.3 Applications 9.7 Illustrative Examples Problems Chapter 10 Multi-degree of Freedom Systems 10.1 Introduction 10.2 Spring Mass Model: Mdof System 10.3 Holtzer Method 10.4 Dynamic Equilibrium Condition: Mdof System 10.5 Undamped Free Vibration Analysis 10.6 Transformation of Eigenvalue Problem to Standard Form 10.7 Normal Coordinates 10.8 Uncoupled Equations of Motion 10.9 Solution of Undamped Free Vibration Analysis 10.10 Response Spectrum Analysis 10.11 Illustrative Examples 10.12 Rayleigh Damping Problems Chapter 11 Systems with Distributed Mass and Elasticity 11.1 Introduction 11.2 Distributed Mass and Stiffness Systems 11.3 Simply Supported Beam 11.4 Cantilever Beam 11.5 Rayleigh’s Principle: Conservation of Energy 11.6 Multi-degree of Freedom System 11.7 Improved Rayleigh Method 11.8 Generalized Sdof Systems 11.9 Illustrative Examples 11.10 Lumped Mass System: Shear Buildings Problems References Part 3 Application to Earthquake Engineering Chapter 12 Analysis of Buildings for Earthquake Force 12.1 Introduction 12.2 What is a Building?390 12.3 Structural Systems 12.4 Concrete Frame and Shear Walls 12.5 Member Proportions 12.6 Irregularity in Configurations of Buildings 12.7 Modelling of a Building 12.8 Base Shear in a Building 12.9 Fundamental Period of Vibration 12.10 Earthquake Force 12.10.1 Seismic Coefficient Method 12.10.2 Response Spectrum Method 12.11 Response Reduction Factor 12.12 Building on Stilts 12.13 Deflection and Separation of Buildings 12.14 Illustrative Examples 12.15 Special Devices Problems References Chapter 13 Nonlinear Analysis of Structures 13.1 Introduction 13.2 Overview of Nonlinearity 13.3 Modeling for Nonlinear Analysis 13.3.1 Steel Brace 13.3.2 Steel Beam 13.3.3 Steel Column 13.3.4 Concrete Beam 13.3.5 Concrete Column 13.3.6 Nonlinear Behaviour of Frames 13.4 Nonlinear Analysis 13.5 Illustrative Examples 13.6 Inelastic Response Spectra 13.7 Smoothened Inelastic Response Spectra 13.8 Illustrative Examples 13.9 Energy Dissipation Systems 13.9.1 Viscoelasticity 13.9.2 Hysteresis Behaviour of Dampers 13.9.3 ADAS Energy Dissipating System 13.10 Modeling of Expansion Gap in Bridges 13.11 Illustrative Examples Problems References – Further Reading Chapter 14 Performance-based Seismic Design of Structures 14.1 Introduction 14.2 Performance-based Seismic Design 14.3 Acceptable Risk in an Earthquake 14.4 Requirements for Seismic Rehabilitation 14.5 Nonlinear Procedures 14.6 Stress–strain Curve for Concrete Section 14.7 Moment-curvature Curve for Concrete Section 14.8 Axial Force–moment Interaction Curves for Concrete 14.9 Acceleration-displacement Response Spectra (ADRS)545 14.10 Illustrative Examples Problems References – Further Reading Part 4 Wind Load Chapter 15 Wind Load 15.1 Introduction 15.2 Terminology 15.3 Wind Load 15.4 Static Wind Pressure 15.5 Illustrative Examples 15.6 Dynamic Wind Pressure 15.7 Illustrative Examples 15.8 Wind Load on a Truss Bridge 15.9 Response of Structures to Wind Load Problems References – Further Reading Appendix 1 Measuring Earthquakes: Magnitude and Intensity Appendix 2 MATLAB Basics Answers to Selected Problems