Codes specify high factory of safety in design to prevent brittle torsional failure of reinforced concrete (RC) columns. This necessitates accurate prediction of the torsional behavior for efficient design of these members. However, very few analytical models are available to predict the response of RC members under torsional load condition. Softened truss model (STM) developed in the University of Houston is one of them, which is widely used for this purpose. The present study shows that STM prediction is not sufficiently accurate particularly in the post cracking region when compared to test results. It also aims at developing an improved analytical model for RC square members under torsional load conditions. Since concrete is weak in ten...
The present study on analysing the behaviour of RC members while subjected to combined loading and c...
Torsion can be a significant action in many structural members that are part of civil engineering in...
Torsional loadings can significantly affect the flow of internal forces and deformation capacity of ...
Considering the brittle nature of torsional failure of reinforced concrete (RC) members and high saf...
Combination of torsion and axial compressive loading frequently occurs in bridge columns during eart...
The presence of torsional loading significantly alters the behaviour of reinforced concrete (RC) mem...
n analytical model for prediction of torsional behavior of reinforced concrete beams strengthened wi...
This paper presents an analytical model for prediction of torsional behavior of reinforced concrete ...
Reinforced concrete (RC) members are often subjected to combinations of axial, shear, and bending lo...
This paper presents a theoretical model for reinforced concrete members under cyclic torsion. It is ...
This paper presents a theoretical model for reinforced concrete members under cyclic torsion. It is ...
This paper presents an improved softened membrane model for the analysis of reinforced concrete (RC)...
This paper presents an improved softened membrane model for the analysis of reinforced concrete (RC)...
This paper compares the efficiency of tension stiffened softened truss model (TS-STM) and a nonlinea...
[[abstract]]The Softened Membrane Model (SMM), developed for predicting the behavior of reinforced c...
The present study on analysing the behaviour of RC members while subjected to combined loading and c...
Torsion can be a significant action in many structural members that are part of civil engineering in...
Torsional loadings can significantly affect the flow of internal forces and deformation capacity of ...
Considering the brittle nature of torsional failure of reinforced concrete (RC) members and high saf...
Combination of torsion and axial compressive loading frequently occurs in bridge columns during eart...
The presence of torsional loading significantly alters the behaviour of reinforced concrete (RC) mem...
n analytical model for prediction of torsional behavior of reinforced concrete beams strengthened wi...
This paper presents an analytical model for prediction of torsional behavior of reinforced concrete ...
Reinforced concrete (RC) members are often subjected to combinations of axial, shear, and bending lo...
This paper presents a theoretical model for reinforced concrete members under cyclic torsion. It is ...
This paper presents a theoretical model for reinforced concrete members under cyclic torsion. It is ...
This paper presents an improved softened membrane model for the analysis of reinforced concrete (RC)...
This paper presents an improved softened membrane model for the analysis of reinforced concrete (RC)...
This paper compares the efficiency of tension stiffened softened truss model (TS-STM) and a nonlinea...
[[abstract]]The Softened Membrane Model (SMM), developed for predicting the behavior of reinforced c...
The present study on analysing the behaviour of RC members while subjected to combined loading and c...
Torsion can be a significant action in many structural members that are part of civil engineering in...
Torsional loadings can significantly affect the flow of internal forces and deformation capacity of ...