A simplified model of an anticlastic membrane is that of two perpendicular ropes, which meet at a point. If the ropes are tensed in opposite directions, the meeting point becomes is fixed. As we increase the tension in the two ropes, more and more force will be required to move the meeting point of the two ropes. In other words, the system becomes more rigid when the tension of the ropes is increased and when applying an external force it will deform less. The tension applied to a cable system or an anticlastic membrane for it to become more rigid is called pretension. A membrane or anticlastic net has an adequate structural behavior only if it is in a tensed state.[1] Loss of pretension reduces the rigidity of the system, increasing its d...
The durability of textile membranes in outdoor architectural applications is a key factor to be cons...
The two major focuses of this dissertation are: (1) Studying the structural behaviors of hyper-elast...
The wide use of tensioned membrane structures (TMS) becomes prominent in many designs because of its...
A simplified model of an anticlastic membrane is that of two perpendicular ropes, which meet at a po...
The design process of membrane buildings and structural fabrics has to consider changes of the mater...
Tensile membrane structures are often used as protective structures in order to provide cover from s...
The paper presents an analysis of a membrane-hanging roof subjected to climatic loadings. Discussion...
Presently, mechanically fastened waterproofing systems are widely used in large roofs, mostly in ind...
Tensile fabric structures are used for large-scale iconic structures worldwide, yet analysis and des...
Waterproofing membranes are subjected to thermal, physical, chemical, and mechanical actions, which...
Coated fabrics are used in a variety of types and strengths for prestressed membrane structures. To ...
The water uptake of an asphalt based built-up roofing membrane subjected to immersion and to a therm...
This publication, A Guide for the Wind Design of Mechanically Attached Flexible Membrane Roofs, prov...
Stresses in built-up roofing membranes are caused by differential movements due to loads, temperatur...
Geosynthetic materials are routinely used in soil reinforcement and stabilization applications. They...
The durability of textile membranes in outdoor architectural applications is a key factor to be cons...
The two major focuses of this dissertation are: (1) Studying the structural behaviors of hyper-elast...
The wide use of tensioned membrane structures (TMS) becomes prominent in many designs because of its...
A simplified model of an anticlastic membrane is that of two perpendicular ropes, which meet at a po...
The design process of membrane buildings and structural fabrics has to consider changes of the mater...
Tensile membrane structures are often used as protective structures in order to provide cover from s...
The paper presents an analysis of a membrane-hanging roof subjected to climatic loadings. Discussion...
Presently, mechanically fastened waterproofing systems are widely used in large roofs, mostly in ind...
Tensile fabric structures are used for large-scale iconic structures worldwide, yet analysis and des...
Waterproofing membranes are subjected to thermal, physical, chemical, and mechanical actions, which...
Coated fabrics are used in a variety of types and strengths for prestressed membrane structures. To ...
The water uptake of an asphalt based built-up roofing membrane subjected to immersion and to a therm...
This publication, A Guide for the Wind Design of Mechanically Attached Flexible Membrane Roofs, prov...
Stresses in built-up roofing membranes are caused by differential movements due to loads, temperatur...
Geosynthetic materials are routinely used in soil reinforcement and stabilization applications. They...
The durability of textile membranes in outdoor architectural applications is a key factor to be cons...
The two major focuses of this dissertation are: (1) Studying the structural behaviors of hyper-elast...
The wide use of tensioned membrane structures (TMS) becomes prominent in many designs because of its...