Structural Analysis : Principles, Methods and Modelling (Paperback)

· 제목 : Structural Analysis : Principles, Methods and Modelling (Paperback) 
· 분류 : 외국도서 > 기술공학 > 기술공학 > 구조
· ISBN : 9780415526449
· 쪽수 : 576쪽
· 출판일 : 2014-07-28

Introduction

Structural analysis and design

Structural idealisation

Structural members and elements

Structural systems

Types of loads

Supports for structures

Statics of structures: Equilibrium and support reactions

Introduction

Coordinate systems

Force

Moment of a force

Resultant force and moment

Reactions

Free-body diagram

Equilibrium equations for planar structures

External statical determinacy and stability

Internally stable structures

Determination of reactions

Equilibrium and reactions in three-dimensional structures

Problems

Internal actions of beams and frames

Introduction

Internal actions at a cross-section

Sign convention of internal actions

Determination of internal actions and statical determinacy

Axial force, shear force and bending moment diagrams

Problems

Statically determinate trusses

Introduction

Assumptions for truss analysis

Sign convention and notation

An introduction to the method of joints

Method of joints in matrix form

Method of sections

Statical indeterminacy and stability of trusses

Deformation of trusses

Trusses with loaded members

Space trusses

Problems

Euler?Bernoulli beam model

Introduction

Equilibrium of a small length of beam

Kinematic (or strain?displacement) equations

Constitutive equations

Method of double integration

Governing differential equations (as a function of displacements)

Relationship between bending moment, shear force and member loading

Problems

Slope-deflection methods

Introduction

Method of double integration with step functions

Moment-area method

Conjugate beam method

The slope-deflection equations

Problems

Work?energy methods

Strain energy

The work theorem

Virtual work

Virtual work applied to trusses

Virtual work applied to beams and frames

Castigliano’s theorem

Problems

The force method

Introduction

The force method applied to trusses

The force method applied to beams and frames

Problems

Moment distribution

Introduction

Basic concepts

Continuous beams

Frames without sidesway

Frames with sidesway

Problems

Truss analysis using the stiffness method

Overview of the stiffness method

Sign convention, notation, coordinate systems and degrees of freedom

Derivation of the stiffness matrix in local coordinates

Transformation between local and global coordinate systems

Truss element in global coordinates

Assembling

Solution procedure

Calculation of internal actions

Nodal coordinates

Space truss

Problems

Beam analysis using the stiffness method

The beam element

Derivation of the stiffness matrix

Beam element in global coordinates

Assembling of the stiffness elements

Member loads

Solution procedure and post-processing

Problems

Frame analysis using the stiffness method

The frame element

Derivation of the element stiffness matrix

Transformation between local and global coordinate systems

Frame element in global coordinates

Member loads

Assembling, solution and post-processing

Problems

Introduction to the finite element method

Introduction

Euler?Bernoulli beam model

Timoshenko beam model

Problems

Introduction to the structural stability of columns

Introduction

Assumptions

Critical load from equilibrium

Critical load from potential energy

Buckling of an elastic column

Effective buckling length

Buckling stresses

Imperfections in columns

Problems

Introduction to nonlinear analysis

Introduction

Nonlinear material properties

Illustrative examples

Nonlinear analysis using the Newton?Raphson method

Finite element analysis using the Newton?Raphson method

Problems

Appendices

Index