1st Edition

Finite-Element Modelling of Structural Concrete Short-Term Static and Dynamic Loading Conditions

By Michael D. Kotsovos Copyright 2015
384 Pages 307 B/W Illustrations
by CRC Press

382 Pages 307 B/W Illustrations
by CRC Press

381 Pages
by CRC Press

A Powerful Tool for the Analysis and Design of Complex Structural Elements Finite-Element Modelling of Structural Concrete: Short-Term Static and Dynamic Loading Conditions presents a finite-element model of structural concrete under short-term loading, covering the whole range of short-term loading conditions, from static (monotonic and cyclic) to dynamic (seismic and impact) cases.... Read more

Need for a reappraisal
Physical modelling of structural concrete
Constitutive modelling
Concluding remarks
References
Main behavioural characteristics of concrete
The cylinder test
Post-peak behaviour
Fracture processes in concrete
Failure mechanism in concrete structures
A summary of characteristic features of concrete relevant to modelling material behaviour
References
Modelling of concrete behaviour
Constutive relations for concrete
Strength envelopes for concrete
Deformational and yield characteristics of reinforcing steel
A summary of characteristic features of concrete relevant to modelling of material behaviour
References
Structure modelling for static problems
The finite-element method
Nonlinear analysis
The nonlinear finite element model for structural concrete
Material and procedural factors influencing FE predictions
A brief outline of the smeared-model package
References
Finite-element solutions of static problems
Effect of crack closure on predictions of structural-concrete behaviour under monotonic loading
Performance of structural-concrete members exhibiting points of contra-flexure under sequential loading
RC beam-column joints under cyclic loading
Structural walls under cyclic loading
Numerical experiments on flat slabs
References
Extension of finite element modelling to dynamic problems
Background
The equation of motion
Numerical solution of the equation of motion
Numerical procedure adopted for structural concrete
Implementation of the dynamic scheme
Verification studies for the dynamic scheme
General remarks
References
Reinforced concrete structural members under earthquake loading
Introduction
Application of the earthquake load
RC columns
RC frames
Three-storey RC wall
Two-level RC frame under seismic action
Effect of the confinement of reinforcement in boundary-column elements on the behaviour of structural-concrete walls under seismic excitation
Concluding remarks
References
Structural concrete under impact loading
Introduction
Structural concrete under compressive impact loading
Structural concrete under tensile impact loading
RC beams under impact loading
Concluding remarks
References
A: Octahedral formulation of stresses and strains
B: Coordinate transformations

Biography

Michael Kotsovos is a senior research fellow, and former professor and head of the Structures Department, at the National Technical University of Athens. He was formerly a consultant to Jan Bobrowski and Partners; Rendel, Parmer and Tritton; and Taywood Engineering in London; followed by several years as a lecturer at Imperial College London, UK.

"This book provides a comprehensive and reliable treatment of the finite element analysis of reinforced concrete structures on the basis of well-founded material properties adopted on the basis of experimental results after a critical evaluation by the author according to his personal research. The strictness of the approach regarding the effective triaxial concrete behaviour forms a safe basis for the development of the finite element procedure in analyzing various reinforced concrete structures under static and dynamic loading including the seismic design."
—Leonidas Stavridis, National Technical University of Athens