A smooth yield surface for the modelling of masonry on mesoscopic scale is presented, using interpolation by second order Bzier curves. The cracked joints are modelled as displacement discontinuities using the partition of unity property of finite element shape functions
The paper presents an effective strategy for creating realistic 3D microscale finite element meshes ...
The paper presents an effective strategy for creating realistic 3D microscale finite element meshes ...
The paper presents an effective strategy for creating realistic 3D microscale finite element meshes ...
Summary. A methodology to model masonry on a mesoscopic scale using the partition of unity concept o...
A mesoscopic masonry model is presented in which joints are modelled by weak and strong discontinuit...
Computational methods have been developed over the past two decades for the analysis of masonry stru...
In this contribution, a rate-dependent mesoscopic masonry model is presented in which the mortar joi...
This paper deals with the accurate modelling of unreinforced masonry (URM) behaviour using a 3D meso...
A 3D model for the evaluation of the non-linear behavior of masonry double curvature structures is p...
A detailed modelling approach to represent masonry at the meso-scale is proposed, based on the discr...
A 3D model for the evaluation of the non-linear behavior of masonry double curvature structures is p...
Abstract. Two mesoscopic masonry models are presented in which the mortar joints are incorporated us...
A 3D model for the evaluation of the non-linear behavior of masonry double curvature structures is p...
A 3D model for the evaluation of the non-linear behavior of masonry double curvature structures is p...
A 3D model for the evaluation of the non-linear behavior of masonry double curvature structures is p...
The paper presents an effective strategy for creating realistic 3D microscale finite element meshes ...
The paper presents an effective strategy for creating realistic 3D microscale finite element meshes ...
The paper presents an effective strategy for creating realistic 3D microscale finite element meshes ...
Summary. A methodology to model masonry on a mesoscopic scale using the partition of unity concept o...
A mesoscopic masonry model is presented in which joints are modelled by weak and strong discontinuit...
Computational methods have been developed over the past two decades for the analysis of masonry stru...
In this contribution, a rate-dependent mesoscopic masonry model is presented in which the mortar joi...
This paper deals with the accurate modelling of unreinforced masonry (URM) behaviour using a 3D meso...
A 3D model for the evaluation of the non-linear behavior of masonry double curvature structures is p...
A detailed modelling approach to represent masonry at the meso-scale is proposed, based on the discr...
A 3D model for the evaluation of the non-linear behavior of masonry double curvature structures is p...
Abstract. Two mesoscopic masonry models are presented in which the mortar joints are incorporated us...
A 3D model for the evaluation of the non-linear behavior of masonry double curvature structures is p...
A 3D model for the evaluation of the non-linear behavior of masonry double curvature structures is p...
A 3D model for the evaluation of the non-linear behavior of masonry double curvature structures is p...
The paper presents an effective strategy for creating realistic 3D microscale finite element meshes ...
The paper presents an effective strategy for creating realistic 3D microscale finite element meshes ...
The paper presents an effective strategy for creating realistic 3D microscale finite element meshes ...