Non-Linear Mechanics of Reinforced Concrete
1st Edition
Published on 20. March 2003
Book
Hardback
768 pages
978-0-415-27126-4 (ISBN)
Description
This book describes the application of nonlinear static and dynamic analysis for the design, maintenance and seismic strengthening of reinforced concrete structures. The latest structural and RC constitutive modelling techniques are described in detail, with particular attention given to multi-dimensional cracking and damage assessment, and their practical applications for performance-based design. Other subjects covered include 2D/3D analysis techniques, bond and tension stiffness, shear transfer, compression and confinement. It can be used in conjunction with WCOMD and COM3 software
Nonlinear Mechanics of Reinforced Concrete presents a practical methodology for structural engineers, graduate students and researchers concerned with the design and maintenance of concrete structures.
Nonlinear Mechanics of Reinforced Concrete presents a practical methodology for structural engineers, graduate students and researchers concerned with the design and maintenance of concrete structures.
Reviews / Votes
This monograph presents an updated practical methodology for structural engineers, graduate students, and researchers involved with the design and maintenance of concrete structures. - MCEER NewsMore details
Language
English
Place of publication
London
United Kingdom
Publishing group
Taylor & Francis Ltd
Target group
College/higher education
Professional and scholarly
Postgraduate and Professional
Dimensions
Height: 240 mm
Width: 161 mm
Thickness: 45 mm
Weight
1303 gr
ISBN-13
978-0-415-27126-4 (9780415271264)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
K. Maekawa | H. Okamura | A. Pimanmas
Non-Linear Mechanics of Reinforced Concrete
Book
12/2019
1st Edition
CRC Press
€105.00
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K. Maekawa | H. Okamura | A. Pimanmas
Non-Linear Mechanics of Reinforced Concrete
Book
12/2012
1st Edition
CRC Press
€53.47
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K. Maekawa | H. Okamura | A. Pimanmas
Non-Linear Mechanics of Reinforced Concrete
E-Book
09/2003
CRC Press
€92.49
Available for download
K. Maekawa | H. Okamura | A. Pimanmas
Non-Linear Mechanics of Reinforced Concrete
Other
09/2003
CRC Press
€249.62
Article exhausted; check different version
K. Maekawa | H. Okamura | A. Pimanmas
Non-Linear Mechanics of Reinforced Concrete
E-Book
09/2003
1st Edition
CRC Press
€92.49
Available for download
Persons
Koichi Maekawa is Professor in the Department of Civil Engineering at the University of Tokyo, Japan.
Amron Pimanmas is Assistant Professor at the School of Building Facilities and Civil Engineering, Sirindhorn International Institute of Technology, Thamassat University, Thailand.
Hajime Okamura is President of Koichi University of Technology, Japan and Professor Emeritus of the University of Tokyo, Japan.
Amron Pimanmas is Assistant Professor at the School of Building Facilities and Civil Engineering, Sirindhorn International Institute of Technology, Thamassat University, Thailand.
Hajime Okamura is President of Koichi University of Technology, Japan and Professor Emeritus of the University of Tokyo, Japan.
Content
Part 1:Analysis and Modeling of Reinforced Concrete 1. Introduction 2. Two-Dimentional Analysis of Reinforced Concrete 3. Three-Dimentional Analysis of Reinforced Concrete 4. Analysis of Underground Structure and Soil-Structure Interactions 5. Analysis of Shell and Framed Structure 6. Analysis of Strengthened/Retrofitted Structures with Steel Encasement and Fiber Reinforced Wrapping 7. Analysis of Pre-Cracked Reinforced Concrete Member in Shear and Effect of Path-Dependency Part 2:Constitutive Model of Reincorced Concrete 8. Analysis of Stress Transfer Across Interface in Reinforced Concrete 9. Elasto-Plastic Fracture Model for Un-Cracked Concrete 10. Stress Transfer Across Crack in Reinforced Concrete Through Aggregate Interlock Action 11. Bond and Tensile Mechanics of Reinforced Concrete 12. Reinforcing Bar Model Under Arbitrary Loading Paths