The behaviour of dry-joint masonry arch structures is highly nonlinear and discontinuous since they are composed of individual discrete blocks. These structures are vulnerable to seismic excitations. It is difficult for traditional methods like the standard finite element method (FEM) to simulate masonry failure due to their intrinsic limitations. An advanced computational approach, i.e., the combined finite-discrete element method (FDEM), was employed in this study to examine the first-order seismic capacity of masonry arches and buttressed arches with different shapes subjected to gravity and constant horizontal acceleration. Within the framework of the FDEM, masonry blocks are discretised into discrete elements. A finite element formulat...
Masonry arches are vulnerable to seismic actions. Over the last few years, extensive research has be...
Masonry arches are vulnerable to seismic actions. Over the last few years, extensive research has be...
Large displacement response of stone masonry structures often involves the opening and closing of dr...
Masonry arches are typical components of historic buildings throughout the world, and their damage o...
Masonry arches are typical components of historic buildings throughout the world, and their damage o...
As assemblage of blocks, masonry arch structures are highly discontinuous. The combined finite–discr...
Masonry arches are usually composed of individual blocks or voussoirs, which are highly discontinuou...
Much of the world’s architectural heritage consists of Unreinforced Masonry (URM) structures whose p...
Earthquakes represent one of the major threats to the stability of the world architectural heritage,...
The majority of historical masonry structures include arches and vaults, constructed with or without...
Masonry arches are vulnerable to seismic actions. Over the last few years, extensive research has be...
This paper presents the application of the numerical models for dynamic analysis of dry stone masonr...
Many historic structures are located in regions of significant seismic activity and are vulnerable t...
Confined masonry is a popular, non-engineered building technique used throughout the world. It is es...
Masonry arches are vulnerable to seismic actions. Over the last few years, extensive research has be...
Masonry arches are vulnerable to seismic actions. Over the last few years, extensive research has be...
Large displacement response of stone masonry structures often involves the opening and closing of dr...
Masonry arches are typical components of historic buildings throughout the world, and their damage o...
Masonry arches are typical components of historic buildings throughout the world, and their damage o...
As assemblage of blocks, masonry arch structures are highly discontinuous. The combined finite–discr...
Masonry arches are usually composed of individual blocks or voussoirs, which are highly discontinuou...
Much of the world’s architectural heritage consists of Unreinforced Masonry (URM) structures whose p...
Earthquakes represent one of the major threats to the stability of the world architectural heritage,...
The majority of historical masonry structures include arches and vaults, constructed with or without...
Masonry arches are vulnerable to seismic actions. Over the last few years, extensive research has be...
This paper presents the application of the numerical models for dynamic analysis of dry stone masonr...
Many historic structures are located in regions of significant seismic activity and are vulnerable t...
Confined masonry is a popular, non-engineered building technique used throughout the world. It is es...
Masonry arches are vulnerable to seismic actions. Over the last few years, extensive research has be...
Masonry arches are vulnerable to seismic actions. Over the last few years, extensive research has be...
Large displacement response of stone masonry structures often involves the opening and closing of dr...