Journal ArticleDOI
Shear failure of reinforced concrete beams
A Placas,P E Regan,A. L. L. Baker +2 more
- Vol. 68, Iss: 10, pp 763-773
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TLDR
In this paper, an extensive test program for the investigation of the SHEAR RESISTANCE of reinforced CONCRETE beams was carried out and the results of these tests led to the classification of SHEAR FAILURES into four basic models: DIAGONAL TENSION, SHEARING, SHARING COMPRESSION, and WEB CRUSHING.Abstract:
AN EXTENSIVE TEST PROGRAM FOR THE INVESTIGATION OF THE SHEAR RESISTANCE OF REINFORCED CONCRETE BEAMS WAS CARRIED OUT. SIXTY-THREE T, I, AND RECTANGULAR BEAMS WITH VARYING CROSS SECTION, WEB REINFORCEMENT, LONGITUDINAL REINFORCEMENT, CONCRETE STRENGTH, AND SHEAR SPAN WERE TESTED. STUDY OF THESE AND OTHER RESULTS LEAD TO THE CLASSIFICATION OF SHEAR FAILURES INTO FOUR BASIC MODES. THESE MODES ARE DESCRIBED AND EQUATIONS DEVELOPED FOR THE CALCULATION OF COLLAPSE LOADS FOR FAILURES BY DIAGONAL TENSION, SHEARING, SHEAR COMPRESSION, AND WEB CRUSHING. THE ULTIMATE LOAD IN A GIVEN CASE IS INTRINSIC TO THE FAILURE MODE CORRESPONDING TO THE LEAST STRENGHT AFTER DIAGONAL CRACKING. A FORMULA FOR CALCULATING SHEAR CRACK WIDTHS IS PRESENTED. /AUTHOR/read more
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Shear strength of reinforced concrete: part i--beams subjected to shear, bending moment, and axial load
TL;DR: In this article, a simple noniterative method for predicting the ultimate strength and the mode of failure of reinforced concrete membrane elements subjected to pure shear is presented, acting in combination with bending moment and axial tension or compression.
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Shear failure criterion for RC T-beams
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