Structural Analysis
Principles, Methods and Modelling

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Language: English

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Provides Step-by-Step Instruction


Structural Analysis: Principles, Methods and Modelling

outlines the fundamentals involved in analyzing engineering structures, and effectively presents the derivations used for analytical and numerical formulations. This text explains practical and relevant concepts, and lays down the foundation for a solid mathematical background that incorporates MATLAB® (no prior knowledge of MATLAB is necessary), and includes numerous worked examples.

Effectively Analyze Engineering Structures

Divided into four parts, the text focuses on the analysis of statically determinate structures. It evaluates basic concepts and procedures, examines the classical methods for the analysis of statically indeterminate structures, and explores the stiffness method of analysis that reinforces most computer applications and commercially available structural analysis software. In addition, it covers advanced topics that include the finite element method, structural stability, and problems involving material nonlinearity.

MATLAB® files for selected worked examples are available from the book?s website. Resources available from CRC Press for lecturers adopting the book include:

  • A solutions manual for all the problems posed in the book
  • Nearly 2000 PowerPoint presentations suitable for use in lectures for each chapter in the book
  • Revision videos of selected lectures with added narration
  • Figure slides


Structural Analysis: Principles, Methods and Modelling

exposes civil and structural engineering undergraduates to the essentials of structural analysis, and serves as a resource for students and practicing professionals in solving a range of engineering problems.

Introduction. Statics of structures: Equilibrium and support reactions. Internal actions of beams and frames. Statically determinate trusses. Euler–Bernoulli beam model. Slope-deflection methods. Work–energy methods. The force method. Moment distribution. Truss analysis using the stiffness method. Beam analysis using the stiffness method. Frame analysis using the stiffness method. Introduction to the finite element method. Introduction to the structural stability of columns. Introduction to nonlinear analysis. Introduction. Appendices. Index.

Postgraduate and Undergraduate

Gianluca Ranzi is an associate professor and the director of the Centre for Advanced Structural Engineering at the University of Sydney, specializing in the analysis and design of concrete and composite steel-concrete structures.


Raymond Ian Gilbert

is an emeritus professor at the University of New South Wales. He has over 35 years’ experience in teaching structural analysis and design and is a specialist in the analysis and design of reinforced and prestressed concrete structures.

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