(Ebook) Advanced Steel Design of Structures 1st Edition by Srinivasan Chandrasekaran ISBN 0367232901 9780367232900

(Ebook) Advanced Steel Design of Structures 1st Edition by Srinivasan Chandrasekaran ISBN 0367232901 9780367232900

(Ebook) Advanced Steel Design of Structures 1st Edition by Srinivasan Chandrasekaran - Ebook PDF Instant Download/Delivery: 0367232901, 9780367232900
Full download (Ebook) Advanced Steel Design of Structures 1st Edition after payment

Product details:

ISBN 10: 0367232901 
ISBN 13: 9780367232900
Author: Srinivasan Chandrasekaran

Advanced Steel Design of Structures examines the design principles of steel members under special loads and covers special geometric forms and conditions not typically presented in standard design books. It explains advanced concepts in a simple manner using numerous illustrative examples and MATLAB® codes. Features: Provides analysis of members under unsymmetrical bending Includes coverage of structures with special geometry and their use in offshore applications for ultra-deep water oil and gas exploration Presents numerical modeling and analysis of steel members under fire conditions, impact, and blast loads Includes MATLAB® examples that will aid in the capacity building of civil engineering students approaching this complex subject Written for a broad audience, the presentation of design concepts of steel members will be suitable for upper-level undergraduate students. The advanced design theories for offshore structures under special loads will be an attractive feature for post-graduate students and researchers. Practicing engineers will also find the book useful, as it includes numerous solved examples and practical tutorials.

(Ebook) Advanced Steel Design of Structures 1st Table of contents:

Chapter 1. Introduction
1.1 Introduction
1.2 Compliant offshore platforms
1.3 New-generation offshore platforms
1.3.1 Buoyant leg structures
1.3.2 Triceratops
1.3.3 Buoyant leg storage regasification platform
1.4 Design of stiffened cylindrical shell structures
1.5 Unsymmetrical bending
1.6 Curved beams
1.6.1 Bending of curved beams with small initial curvature
1.6.2 Deflection of the curved beam with small initial curvature
1.6.3 Curved beam with large initial curvature
1.6.4 Simplified equations to estimate stresses in the extreme fiber
Exercise problems
Chapter 2. Plastic Design of Structures
2.1 Plastic Behavior of Structures
2.2 Shape Factor
2.2.1 Rectangular Section
2.2.2 Triangular Section
2.2.3 Circular Section
2.3 MATLAB® Code for Calculating Shape Factor
2.4 Moment Curvature Relationship
2.5 Mechanism
2.6 Static Theorem
2.7 Kinematic Theorem
2.8 Uniqueness Theorem
2.9 Exercises to Estimates Collapse Load
2.9.1 Fixed Beam with a Central Point Load
2.9.2 Fixed Beam with Uniformly Distributed Load
2.9.3 Simply Supported Beam with Eccentric Load
2.9.4 Simply Supported Beam with a Central Point Load
2.10 Advantages and Disadvantages of Plastic Analysis
2.10.1 Advantages
2.10.2 Disadvantages
2.11 Comparison of Elastic and Plastic Analysis
Exercises
Chapter 3. Blast, Fire, and Impact-Resistant Design
3.1 Introduction
3.2 Blast-Resistant Design
3.2.1 Personnel Safety
3.2.2 Controlled Shutdown
3.2.3 Financial Consideration
3.2.4 Preliminary Design
3.2.5 Detailed Design
3.3 Blast Loads
3.4 Classification of Explosions
3.4.1 Vapour Cloud Explosions
3.4.2 Pressure Vessel Explosions
3.4.3 Condensed Phase Explosion
3.4.4 Dust Explosions
3.5 Blast Wave Parameters
3.5.1 Peak Reflected Pressure
3.5.2 Peak Dynamic Pressure
3.5.3 Shock Front Velocity
3.5.4 Blast Wavelength
3.6 Design Blast Load for Buildings
3.6.1 Front Wall Load
3.6.2 Side Wall Load
3.6.3 Roof Load
3.6.4 Rear Wall Load
3.6.5 Frame Loading
3.6.6 Negative Pressure, Leakage Pressure and Rebound Load
3.7 Design Example: Computation of Blast Overpressure for a Rectangular-Shaped Building
3.8 Fire Load
3.9 Categorization of Fire
3.10 Characteristics of Fire
3.10.1 Auto-Ignition Temperature
3.10.2 Flashpoint
3.10.3 Fire Point
3.11 Classification of Fire
3.12 Fire Protection Systems in the Design
3.13 Steel at High Temperature
3.14 Example Case Study: Behavior of an Offshore Deck Plate Under Hydrocarbon Fire
3.15 Design for Fire
3.15.1 Zone Method
3.15.2 Linear Elastic Method
3.15.3 Elastic–Plastic Method
3.16 Impact Loads Due to Ship–Platform Collision
3.16.1 Kinetic Energy
3.17 Energy Absorption
3.18 An Example Problem on Ship Collision
3.19 Impact Analysis of Buoyant Legs of Offshore Triceratops
3.20 Functionally Graded Material
3.20.1 Material Characteristics of FGM
Chapter 4. Stability of Structural Systems
4.1 Conditions of Stability
4.2 Buckling and Instability
4.3 Euler Critical Load
4.4 Standard Beam Element, Neglecting Axial Deformation
4.4.1 Rotational Coefficients
4.5 Stability Functions
4.5.1 Rotation Functions Under Axial Compressive Load
4.5.2 Rotation Functions Under Zero Axial Load (Special Case)
4.5.3 Rotation Functions Under Axial Tensile Load
4.5.4 Translation Function Under Axial Compressive Load
4.6 Lateral Load Functions Under Uniformly Distributed Load
4.7 Fixed Beam Under Tensile Axial Load
4.8 Lateral Load Functions for Concentrated Load
4.9 Exercise Problems on Stability Analysis
4.10 Critical Buckling Load
Chapter 5. Mathieu Stability of Compliant Structures
5.1 Introduction
5.2 Mooring Systems
5.3 Mathieu Equation
5.4 Mathieu Stability for Compliant Structures
5.5 Mathieu Stability of Triceratops
5.5.1 Formulation of Mathieu Equation
5.5.2 Mathematical Model
5.6 Influence of Parameters on Stability
5.6.1 Influence of Wave Height
5.6.2 Influence of Wave Period
5.6.3 Influence of Water Depth
5.6.4 Influence of Tether Stiffness
5.6.5 Influence of Increased Payload
5.7 Mathieu Stability of BLSRP
5.7.1 Numerical Modeling
5.7.2 Mathieu Stability Under Tether Pullout
5.7.3 Mathieu Stability Analysis Under Eccentric Loading
5.8 Numerical Modeling Example of Triceratops
5.8.1 Typical Plots of Members Showing Instability
5.9 Numerical Model of BLSRP

People also search for (Ebook) Advanced Steel Design of Structures 1st:

advanced design of steel structures books
    
advanced steel design course
    
design of steel structures engineering book
    
advanced steel design of structures
    
advanced design of metal structures

Tags: Srinivasan Chandrasekaran, Steel, Design