Add to ORKGThis paper uses the Generalized Finite Element method for the introduction of the cohesive joint behaviour to model masonry. Cracked joints are modelled as displacement discontinuities and are introduced in the finite element model by additional degrees of freedom. These degrees of freedom are activated when the stress state in the joint reaches a critical level. The joint behaviour is governed by a rigid plasticity model
Two simple and reliable homogenized models are presented for the characterization of the masonry beh...
Two simple and reliable homogenized models are presented for the characterization of the masonry beh...
A finite element procedure developed for the study of fracture in concrete is extended for the simul...
Summary. A methodology to model masonry on a mesoscopic scale using the partition of unity concept o...
A mesoscopic masonry model is presented using the partition of unity finite element method. Joints a...
A mesoscopic masonry model is presented using the partition of unity finite element method. Joints a...
Abstract. A mesoscopic masonry model is presented using the partition of unity finite element method...
A detailed modelling approach to represent masonry at the meso-scale is proposed, based on the discr...
This paper presents a numerical procedure for fracture of brickwork masonry based on the strong disc...
Abstract. Two mesoscopic masonry models are presented in which the mortar joints are incorporated us...
Two simple and reliable homogenized models are presented for the characterization of the masonry beh...
A mesoscopic masonry model is presented in which joints are modelled by weak and strong discontinuit...
Two simple and reliable homogenized models are presented for the characterization of the masonry beh...
Two simple and reliable homogenized models are presented for the characterization of the masonry beh...
Two simple and reliable homogenized models are presented for the characterization of the masonry beh...
Two simple and reliable homogenized models are presented for the characterization of the masonry beh...
Two simple and reliable homogenized models are presented for the characterization of the masonry beh...
A finite element procedure developed for the study of fracture in concrete is extended for the simul...
Summary. A methodology to model masonry on a mesoscopic scale using the partition of unity concept o...
A mesoscopic masonry model is presented using the partition of unity finite element method. Joints a...
A mesoscopic masonry model is presented using the partition of unity finite element method. Joints a...
Abstract. A mesoscopic masonry model is presented using the partition of unity finite element method...
A detailed modelling approach to represent masonry at the meso-scale is proposed, based on the discr...
This paper presents a numerical procedure for fracture of brickwork masonry based on the strong disc...
Abstract. Two mesoscopic masonry models are presented in which the mortar joints are incorporated us...
Two simple and reliable homogenized models are presented for the characterization of the masonry beh...
A mesoscopic masonry model is presented in which joints are modelled by weak and strong discontinuit...
Two simple and reliable homogenized models are presented for the characterization of the masonry beh...
Two simple and reliable homogenized models are presented for the characterization of the masonry beh...
Two simple and reliable homogenized models are presented for the characterization of the masonry beh...
Two simple and reliable homogenized models are presented for the characterization of the masonry beh...
Two simple and reliable homogenized models are presented for the characterization of the masonry beh...
A finite element procedure developed for the study of fracture in concrete is extended for the simul...