Unified theory of reinforced concrete
Author(s)
Bibliographic Information
Unified theory of reinforced concrete
(New directions in civil engineering)
CRC Press, c1993
Available at 22 libraries
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  Iwate
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Note
Bibliography: p. 301-303
Includes index
Description and Table of Contents
Description
Reinforced concrete structures are subjected to a complex variety of stresses and strains. The four basic actions are bending, axial load, shear, and torsion. Presently, there is no single comprehensive theory for reinforced concrete structural behavior that addresses all of these basic actions and their interactions. Furthermore, there is little consistency among countries around the world in their building codes, especially in the specifications for shear and torsion.
Unified Theory of Reinforced Concrete addresses this serious problem by integrating available information with new research data, developing one unified theory of reinforced concrete behavior that embraces and accounts for all four basic actions and their combinations. The theory is presented in a systematic manner, elucidating its five component models from a pedagogical and historical perspective while emphasizing the fundamental principles of equilibrium, compatibility, and the constitutive laws of materials. The significance of relationships between models and their intrinsic consistencies are emphasized. This theory can serve as the foundation on which to build a universal design code that can be adopted internationally. In addition to frames, the book explains the fundamental concept of the design of wall-type and shell-type structures.
Unified Theory of Reinforced Concrete will be an important reference for all engineers involved in the design of concrete structures. The book can also serve well as a text for a graduate course in structural engineering.
Table of Contents
1. Introduction 2. Bernoulli Compatibility Truss Model 3. Equilibrium (Plasticity) Truss Model 4. Stresses in Membrane Elements 5. Strains in Membrane Elements 6. Mohr Compatibility Truss Model 7. Softened Truss Model for Membrane Elements 8. Softened Truss Model for Torsion
by "Nielsen BookData"