A numerical model is proposed for reinforced-concrete behavior that combines the commonly accepted ideas from modeling plain concrete, reinforcement, and interaction behavior in a consistent manner. The behavior of plain concrete is govern by fracture-energy-level-based formulation both in tension and in compression. In the presence of reinforcement, the fracture energy level is assumed to be distributed over a tributary area that belongs to a crack. The crack spacing is estimated using accepted CEB-FIB recommendations. The application of this model to reinforced-concrete panels and shear walls gives good simulations of the failure behavior. [23 Refs; In English
A rational crack behaviour model capable of predicting and assessing the response of cracks in reinf...
A rational crack behaviour model capable of predicting and assessing the response of cracks in reinf...
The paper reviews both analytical and finite element methods for deformational analysis of flexural ...
A numerical model is proposed for reinforced-concrete behavior that combines the commonly accepted i...
A numerical model is proposed for reinforced-concrete behavior that combines the commonly accepted i...
A numerical model is proposed for reinforced-concrete behavior that combines the commonly accepted i...
A numerical model is proposed for reinforced-concrete behavior that combines the commonly accepted i...
A numerical model is proposed for reinforced-concrete behavior that combines the commonly accepted i...
This material may be downloaded for personal use only. Any other use requires prior permission of th...
This material may be downloaded for personal use only. Any other use requires prior permission of th...
The available experimental evidence demonstrates the extreme nonlinear material behaviour of reinfor...
Reinforced concrete (RC) structures exhibit a complex behavior even for low load levels. Non-linear ...
The paper reviews both analytical and finite element methods for deformational analysis of flexural ...
This paper presents a numerical approach to model the complex failure mechanisms that define the ult...
International audienceThe paper proposes a novel stress resultant nonlinear constitutive model for R...
A rational crack behaviour model capable of predicting and assessing the response of cracks in reinf...
A rational crack behaviour model capable of predicting and assessing the response of cracks in reinf...
The paper reviews both analytical and finite element methods for deformational analysis of flexural ...
A numerical model is proposed for reinforced-concrete behavior that combines the commonly accepted i...
A numerical model is proposed for reinforced-concrete behavior that combines the commonly accepted i...
A numerical model is proposed for reinforced-concrete behavior that combines the commonly accepted i...
A numerical model is proposed for reinforced-concrete behavior that combines the commonly accepted i...
A numerical model is proposed for reinforced-concrete behavior that combines the commonly accepted i...
This material may be downloaded for personal use only. Any other use requires prior permission of th...
This material may be downloaded for personal use only. Any other use requires prior permission of th...
The available experimental evidence demonstrates the extreme nonlinear material behaviour of reinfor...
Reinforced concrete (RC) structures exhibit a complex behavior even for low load levels. Non-linear ...
The paper reviews both analytical and finite element methods for deformational analysis of flexural ...
This paper presents a numerical approach to model the complex failure mechanisms that define the ult...
International audienceThe paper proposes a novel stress resultant nonlinear constitutive model for R...
A rational crack behaviour model capable of predicting and assessing the response of cracks in reinf...
A rational crack behaviour model capable of predicting and assessing the response of cracks in reinf...
The paper reviews both analytical and finite element methods for deformational analysis of flexural ...