Add to ORKGThe paper discusses the implications of ductility in design of timber structures under static and dynamic loading including earthquakes. Timber is a material inherently brittle in bending and in tension, unless reinforced adequately. However connections between timber members can exhibit significant ductility, if designed and detailed properly to avoid splitting. Hence it is possible to construct statically indeterminate systems made of brittle timber members connected with ductile connections that behave in a ductile fashion. The brittle members, however, must be designed for the overstrength related to the strength of the ductile connections to ensure the ductile failure mechanism will take place before the failure of the brittle members....
The present paper considers robustness evaluation of timber structures where the ductile behaviour o...
Dowel-type connections are commonly used in timber engineering for a large range of structural appli...
Timber has been a widely used construction material throughout the history of human development and ...
The paper discusses the implications of ductility in design of timber structures under static and dy...
The plastic behavior of fasteners in timber structures has gained more and more interest within rece...
Timber connections can fail in a ductile or in a brittle way. A structural design that guarantees a ...
Ductile behavior of timber connections with metal fasteners is essential to achieve a robust structu...
This paper discusses the design principles of timber connections for ductility with focus on lateral...
In the seismic design of structures according to the dissipative structural behaviour, the connectio...
Due to their comparatively low mass that implies reduced horizontal dynamic loads even during strong...
Dowel-type connections in timber structures should be typically designed in a way that, if the load ...
Dowel-type fastener connections perpendicular to grain may fail in either a ductile or a brittle fas...
According to Eurocode 8 moderate to high dissipative behaviour of timber structures requires suffici...
The present paper considers robustness evaluation of timber structures where the ductile behaviour o...
Dowel-type connections are commonly used in timber engineering for a large range of structural appli...
Timber has been a widely used construction material throughout the history of human development and ...
The paper discusses the implications of ductility in design of timber structures under static and dy...
The plastic behavior of fasteners in timber structures has gained more and more interest within rece...
Timber connections can fail in a ductile or in a brittle way. A structural design that guarantees a ...
Ductile behavior of timber connections with metal fasteners is essential to achieve a robust structu...
This paper discusses the design principles of timber connections for ductility with focus on lateral...
In the seismic design of structures according to the dissipative structural behaviour, the connectio...
Due to their comparatively low mass that implies reduced horizontal dynamic loads even during strong...
Dowel-type connections in timber structures should be typically designed in a way that, if the load ...
Dowel-type fastener connections perpendicular to grain may fail in either a ductile or a brittle fas...
According to Eurocode 8 moderate to high dissipative behaviour of timber structures requires suffici...
The present paper considers robustness evaluation of timber structures where the ductile behaviour o...
Dowel-type connections are commonly used in timber engineering for a large range of structural appli...
Timber has been a widely used construction material throughout the history of human development and ...