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Theory of Structures Fundamentals, Framed Structures, Plates and Shells

Langue : Anglais

Auteur :

Couverture de l’ouvrage Theory of Structures
This book provides the reader with a consistent approach to theory of structures on the basis of applied mechanics. It covers framed structures as well as plates and shells using elastic and plastic theory, and emphasizes the historical background and the relationship to practical engineering activities. This is the first comprehensive treatment of the school of structures that has evolved at the Swiss Federal Institute of Technology in Zurich over the last 50 years.

The many worked examples and exercises make this a textbook ideal for in-depth studies. Each chapter concludes with a summary that highlights the most important aspects in concise form. Specialist terms are defined in the appendix.

There is an extensive index befitting such a work of reference. The structure of the content and highlighting in the text make the book easy to use. The notation, properties of materials and geometrical properties of sections plus brief outlines of matrix algebra, tensor calculus and calculus of variations can be found in the appendices.

This publication should be regarded as a key work of reference for students, teaching staff and practising engineers. Its purpose is to show readers how to model and handle structures appropriately, to support them in designing and checking the structures within their sphere of responsibility.
I INTRODUCTION
Purpose and scope of theory of structures
Historical background
II FUNDAMENTALS
Structural design
Structural analysis and dimensioning
Static relationships
Kinematic relationships
Constitutive relationships
Energy methods
III STATICALLY DETERMINATE FRAMED STRUCTURES
Structural elements and topology
Determining the forces
Stress resultants and state diagrams
Influence lines
IV DEFORMATIONS OF FRAMED STRUCTURES
Elementary deformations
Single deformations
Deformation diagrams
V STATICALLY INDETERMINATE FRAMED STRUCTURES
Force method
Displacement method
Continua
Discontinua
VI NON-LINEAR ANALYSIS OF FRAMED STRUCTURES
Elastic-plastic systems
Limit analysis
Stability
VII PLATES AND SHELLS
Plates
Slabs
Folded plates
Shells
APPENDIX
A1 Definitions
A2 Notation
A3 Properties of materials
A4 Geometrical properties of sections
A5 Matrix algebra
A6 Tensor calculus
A7 Calculus of variations
REFERENCES
INDEX
Prof. Dr. sc. techn. Peter Marti has been professor for theory of structures and structural design at the Swiss Federal Institute of Technology in Zurich since 1990, lecturing in theory of structures and reinforced concrete. Peter Marti has served as chairman on various technical commissions, e.g. ACI-ASCE Joint Committee 445 Shear and Torsion and fib Commission 4 Modelling of Structural Behaviour and Design. He was also president of Swiss standards commission SIA 162 Concrete construction, project manager for Swisscodes and president of the Society for the Art of Civil Engineering. In his role as consulting engineer, reviewer and jury member for competitions, he is responsible for many challenging building, bridge and tunnel projects.