This work deals with the development of a computational method for the nonlinear analysis of reinforced concrete beams subjected to general loading and constraint conditions, able to catch crack formation and propagation. To this aim, a layered beam finite element is developed. The displacement field along beam axis and height is modelled through polynomial functions, whose number of terms is varied based on the complexity of the considered problem. The mechanical nonlinearity of the material is taken into account by implementing a smeared constitutive model for cracked reinforced concrete elements. The effectiveness of the proposed procedure, which can be applied to the analysis of both new and existing buildings, is proved through compari...
A two-dimensional multi-layered finite elements modeling of reinforced concrete structures at nonlin...
This work discusses and compares different numerical approaches that can be adopted for the analysi...
AbstractThe paper presents an advanced methodology for calculating deflections of reinforced concret...
AbstractThis work deals with the development of a computational method for the nonlinear analysis of...
In this work an advanced numerical model for the nonlinear analysis of reinforced concrete beams, su...
A theoretical model for the analysis of beams subjected to shear, bending moment and axial force is ...
In the present study, an analysis of plain and reinforced concrete beams under monotonic loading was...
This paper presents the application of a smeared fixed crack approach for nonlinear finite element a...
A nonlinear finite element program to simulate the behavior of reinforced concrete (RC) members unde...
The nonlinear finite element analysis is used as a tool to obtain the behavior of three-dimensional ...
This paper describes a two-dimensional nonlinear finite element procedure for the analysis of reinfo...
AbstractIncremental approach to the nonlinear analysis of reinforcement concrete with cracks at plan...
The aim is to design and evaluate nonlinear beams analysis, which will be subjected by four – point ...
In the present paper, a numerical algorithm based on the finite element method is proposed for the p...
The nonlinear behavior of reinforced concrete (RC) structural systems is complex. Depending on the l...
A two-dimensional multi-layered finite elements modeling of reinforced concrete structures at nonlin...
This work discusses and compares different numerical approaches that can be adopted for the analysi...
AbstractThe paper presents an advanced methodology for calculating deflections of reinforced concret...
AbstractThis work deals with the development of a computational method for the nonlinear analysis of...
In this work an advanced numerical model for the nonlinear analysis of reinforced concrete beams, su...
A theoretical model for the analysis of beams subjected to shear, bending moment and axial force is ...
In the present study, an analysis of plain and reinforced concrete beams under monotonic loading was...
This paper presents the application of a smeared fixed crack approach for nonlinear finite element a...
A nonlinear finite element program to simulate the behavior of reinforced concrete (RC) members unde...
The nonlinear finite element analysis is used as a tool to obtain the behavior of three-dimensional ...
This paper describes a two-dimensional nonlinear finite element procedure for the analysis of reinfo...
AbstractIncremental approach to the nonlinear analysis of reinforcement concrete with cracks at plan...
The aim is to design and evaluate nonlinear beams analysis, which will be subjected by four – point ...
In the present paper, a numerical algorithm based on the finite element method is proposed for the p...
The nonlinear behavior of reinforced concrete (RC) structural systems is complex. Depending on the l...
A two-dimensional multi-layered finite elements modeling of reinforced concrete structures at nonlin...
This work discusses and compares different numerical approaches that can be adopted for the analysi...
AbstractThe paper presents an advanced methodology for calculating deflections of reinforced concret...