论文信息 - Formulation of a Shear Resistance Mechanism for Inclined Cracks in RC Beams

Formulation of a Shear Resistance Mechanism for Inclined Cracks in RC Beams

The shear capacity of reinforced concrete (RC) members is often associated with sliding across inclined planes often referred to as critical diagonal cracks. However, quantifying the shear capacity of the RC member in terms of the sliding resistance of an inclined plane as a result of shear-friction has been found to be a very complex problem. This is because these sliding planes transcend both initially cracked and uncracked planes, their capacity is also a function of the separation between these sliding planes, and invariably the shear-friction sliding capacity overestimates the shear capacity of the member. In this paper, a structural mechanics model that incorporates shear-friction is developed for quantifying the various components of the shear resistance across a critical diagonal crack because of both longitudinal reinforcement and stirrups. It is shown that the shear resistance is less than would be anticipated from the direct application of shear-friction theory because the compressive force in the uncracked region of concrete is less than can be anticipated and because the shear resistance must provide shear forces to maintain equilibrium prior to resisting the direct shear force.

[1] Michael C. Griffith,et al. Interfacial stress transfer of near surface-mounted FRP-to-concrete joints , 2008 .

[2] Deric J. Oehlers,et al. Generic Debonding Resistance of EB and NSM Plate-to-Concrete Joints , 2007 .

[3] M. P. Nielsen,et al. PLASTICITY APPROACH TO SHEAR DESIGN , 1998 .

[4] Jian fei Chen,et al. Anchorage strength models for FRP and steel plates bonded to concrete , 2001 .

[5] Neil M. Hawkins,et al. SHEAR TRANSFER IN REINFORCED CONCRETE-RECENT RESEARCH , 1972 .

[6] Chengqing Wu,et al. Rigid body moment-rotation mechanism for reinforced concrete beam hinges , 2009 .

[7] Jin-Ping Zhang,et al. Diagonal cracking and shear strength of reinforced concrete beams , 1997 .

[8] Deric J. Oehlers,et al. Local and global bond characteristics of steel reinforcing bars , 2008 .

[9] Michael C. Griffith,et al. A generic unified reinforced concrete model , 2012 .

[10] F. Vecchio,et al. THE MODIFIED COMPRESSION FIELD THEORY FOR REINFORCED CONCRETE ELEMENTS SUBJECTED TO SHEAR , 1986 .

[11] Ning Zhang,et al. Single-Span Deep Beams Subjected to Unsymmetrical Loads , 2009 .

[12] J. C. Walraven,et al. Theory and Experiments on the Mechanical Behaviour of Cracks in Plain and Reinforced Concrete Subjected to Shear Loading , 1981 .

[13] Michael C. Griffith,et al. Simulation of Plastic Hinges in FRP-Plated RC Beams , 2008 .