The nonlinear structural analysis represents a powerful tool for the study of the seismic response of new and existing constructions. In particular, nonlinear static analysis, also denoted as pushover analysis, is widely used for RC and steel structures and, recently, new seismic codes extended the use of this type of analysis to the case of masonry structures. The reliability of the results deduced from nonlinear analyses is not always ensured since the numerical results can depend on the modeling strategy and on the adopted solution techniques. Moreover, in the case of masonry structures strengthened with fiber reinforced polymers (FRP), particular regards has to be addressed not only to the masonry material model but also to the modeling...
The aim of this paper is the development of suitable mechanical models able to reproduce and, hence,...
A suitable and simple two-step model able to predict the non-linear response of FRP strengthened thr...
The protection of existing historical masonry structures represents a relevant topic in view of the ...
The nonlinear structural analysis represents a powerful tool for the study of the seismic response o...
The nonlinear structural analysis represents a powerful tool for the study of the seismic response o...
This chapter presents an overview of modeling techniques commonly used for pushover analysis fiber-r...
Recent codes extended the use of displacement-based design methodologies, such as the pushover analy...
Masonry structures are always used from the past until modern times but due to material degradation,...
The paper presents some numerical applications regarding the nonlinear analysis of masonry elements ...
The homogenized masonry nonlinear stress-strain curves obtained through the simple micromechanical m...
The effect of the application of strengthening systems in form of polymeric grids embedded in inorga...
The use of fiber-reinforced polymers (FRP) for structural strengthening has become increasingly popu...
The use of fiber reinforced polymers (FRP) represents an interesting option to inhibit the formation...
The aim of this paper is the development of suitable mechanical models able to reproduce and, hence,...
A suitable and simple two-step model able to predict the non-linear response of FRP strengthened thr...
The protection of existing historical masonry structures represents a relevant topic in view of the ...
The nonlinear structural analysis represents a powerful tool for the study of the seismic response o...
The nonlinear structural analysis represents a powerful tool for the study of the seismic response o...
This chapter presents an overview of modeling techniques commonly used for pushover analysis fiber-r...
Recent codes extended the use of displacement-based design methodologies, such as the pushover analy...
Masonry structures are always used from the past until modern times but due to material degradation,...
The paper presents some numerical applications regarding the nonlinear analysis of masonry elements ...
The homogenized masonry nonlinear stress-strain curves obtained through the simple micromechanical m...
The effect of the application of strengthening systems in form of polymeric grids embedded in inorga...
The use of fiber-reinforced polymers (FRP) for structural strengthening has become increasingly popu...
The use of fiber reinforced polymers (FRP) represents an interesting option to inhibit the formation...
The aim of this paper is the development of suitable mechanical models able to reproduce and, hence,...
A suitable and simple two-step model able to predict the non-linear response of FRP strengthened thr...
The protection of existing historical masonry structures represents a relevant topic in view of the ...