Title page for ETD etd-09052009-040428


Type of Document Master's Thesis
Author Loulizi, Amara
URN etd-09052009-040428
Title Comparison of design methods for shear in reinforced concrete beams
Degree Master of Science
Department Civil Engineering
Advisory Committee
Advisor Name Title
Barker, Richard M. Committee Chair
Garst, Donald A. Committee Member
Holzer, Siegfried M. Committee Member
Keywords
  • Shear - Mechanics
Date of Defense 1992-04-05
Availability restricted
Abstract

There are two basic methods used to analyze and design reinforced concrete members for shear, the American Concrete Institute Code method (used in the United States) and the truss model method (used in different European Codes and in the Canadian Codes). The ACI Code method is a semi-empirical solution since it builds on fitting actual test results to the analytical mechanism method. Although it will lead to safe results, the ACI method lacks a physical model to represent the actual forces in the beam. For this reason, attention is increasingly being given to develop a mechanical-mathematical model to show the actual behavior of the beam failing in shear. The truss model theory provides a more promising way to treat shear since it can model the structural action in the beam. It was first proposed by Ritter and Marsh at the turn of the twentieth century. The concept has been extended by recent work of Lampert and Thürlimann (1971), Collins and Mitchell (1980), MacGregor (1988), and others.

The purpose of this study is to compare the ACI method and the truss model method for the design of reinforced concrete slender and deep beams.

The results of this study suggest that the truss model is better suited for the design of deep reinforced concrete beams because it models the dominant mechanism that happens in the beam which is the force transfer from load to reaction by the direct compression struts. For slender reinforced concrete beams, either method is suitable for design.

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