The shear resisting actions in reinforced concrete elements without transverse reinforcement is analyzed by means of optimized strut-and-tie models with concrete ties. Biaxial failure criteria are used for uncracked and cracked regions. The stress transfer capacity across cracks is accounted for by including the inclination between the stress field and the crack opening and sliding. An experimental case-study is analyzed. It is shown that that different shear resisting actions can occur in different regions of the beam. The strut-and-tie scheme in the critical region is consistent with the Multi-Action Shear Strength Model (MASM). Analysis of shear resisting actions by means of optimization of strut and tie models taking into account crack ...
It is widely known that the shear strength of a reinforced concrete (RC) or prestressed concrete (PC...
Abstract There are many theories and empirical formulas for estimating the shear strength of reinfor...
The strut-and-tie model was developed in 1899 and was first used in the calculations of the concrete...
The shear resisting actions in reinforced concrete elements without transverse reinforcement is anal...
In this thesis, shear strength models for slender concrete members without and with shear reinforcem...
The shear failure of reinforced concrete beams has been widely investigated over many years. Despite...
Abstract. In this paper, a general method for the automatic search for Strut-and-Tie (S&T) model...
In this paper, a general method for the automatic search for Strut-and-Tie (S&T) models representati...
Different resisting actions interact in the shear resistance of cracked concrete beams whose relativ...
Shear strength of non-slender reinforced concrete beams, in which a/d¿ 2.5, is enhanced due to archi...
textThe design of reinforced concrete members for shear was studied. Both strut-and-tie models (STM)...
The shear resistance of reinforced concrete elements without transverse reinforcement relies on the ...
A conceptual model for the prediction of the shear-flexural strength of slender reinforced concrete ...
Owing to the unique mechanical characteristics and lack of plasticity of fiber-reinforced polymers (...
This paper studies the force transferring mechanisms and shear strength of reinforced concrete (RC) ...
It is widely known that the shear strength of a reinforced concrete (RC) or prestressed concrete (PC...
Abstract There are many theories and empirical formulas for estimating the shear strength of reinfor...
The strut-and-tie model was developed in 1899 and was first used in the calculations of the concrete...
The shear resisting actions in reinforced concrete elements without transverse reinforcement is anal...
In this thesis, shear strength models for slender concrete members without and with shear reinforcem...
The shear failure of reinforced concrete beams has been widely investigated over many years. Despite...
Abstract. In this paper, a general method for the automatic search for Strut-and-Tie (S&T) model...
In this paper, a general method for the automatic search for Strut-and-Tie (S&T) models representati...
Different resisting actions interact in the shear resistance of cracked concrete beams whose relativ...
Shear strength of non-slender reinforced concrete beams, in which a/d¿ 2.5, is enhanced due to archi...
textThe design of reinforced concrete members for shear was studied. Both strut-and-tie models (STM)...
The shear resistance of reinforced concrete elements without transverse reinforcement relies on the ...
A conceptual model for the prediction of the shear-flexural strength of slender reinforced concrete ...
Owing to the unique mechanical characteristics and lack of plasticity of fiber-reinforced polymers (...
This paper studies the force transferring mechanisms and shear strength of reinforced concrete (RC) ...
It is widely known that the shear strength of a reinforced concrete (RC) or prestressed concrete (PC...
Abstract There are many theories and empirical formulas for estimating the shear strength of reinfor...
The strut-and-tie model was developed in 1899 and was first used in the calculations of the concrete...