Add to ORKGLink elements are dissipative devices in form of beam segments that are typically included in eccentrically braced frames (EBF) subjected to lateral loads and seismic hazard. Studies related to short links, energy dissipation and plastic hinge formation have been presented for carbon steel elements with several conclusions at material, member and structural levels. Stainless steel is a nonlinear metallic material with particular appeal for its structural use due to a considerable amount of capabilities such as corrosion resistance, circular life-cycle, sustainability, strength, ductility and aesthetics. Despite the increase of the use of stainless steel for structural elements in construction, t...
Dissipative zones in buildings allow for the release of energy when a seismic event occurs. The stru...
Adequate mechanical properties make stainless steel an excellent construction material for structure...
Several technical solutions have been developed and are currently available on the market to realise...
Link elements are dissipative devices in form of beam segments that are typically inclu...
Vertical links are dissipative devices in form of beam-column segments that are included in eccentri...
Strength, ductility and strain-hardening on austenitic stainless steel are interesting structural pr...
Concentrically braced frames are a common form of earthquake resistant structure. Performance of the...
Stainless steel is an excellent construction material due to its high ductility, strain hardening, d...
The present paper investigates the feasibility of the application of stainless steel (SS) in the se...
In this paper, an experimental program on cyclic loading of austenitic stainless steel specimens is ...
Dissipative zones buildings, in which plastic hinges or plastic strains occur during, for instance, ...
Contemporary seismic design of steel braced systems is based on dissipating earthquake energy throug...
Stainless steel is a structural material with great potential in seismic design due to its ductile a...
Strain hardening is one of the key features of stainless steel for all structural applications. This...
This paper examines the cyclic performance of axially-loaded tubular members used as bracing element...
Dissipative zones in buildings allow for the release of energy when a seismic event occurs. The stru...
Adequate mechanical properties make stainless steel an excellent construction material for structure...
Several technical solutions have been developed and are currently available on the market to realise...
Link elements are dissipative devices in form of beam segments that are typically inclu...
Vertical links are dissipative devices in form of beam-column segments that are included in eccentri...
Strength, ductility and strain-hardening on austenitic stainless steel are interesting structural pr...
Concentrically braced frames are a common form of earthquake resistant structure. Performance of the...
Stainless steel is an excellent construction material due to its high ductility, strain hardening, d...
The present paper investigates the feasibility of the application of stainless steel (SS) in the se...
In this paper, an experimental program on cyclic loading of austenitic stainless steel specimens is ...
Dissipative zones buildings, in which plastic hinges or plastic strains occur during, for instance, ...
Contemporary seismic design of steel braced systems is based on dissipating earthquake energy throug...
Stainless steel is a structural material with great potential in seismic design due to its ductile a...
Strain hardening is one of the key features of stainless steel for all structural applications. This...
This paper examines the cyclic performance of axially-loaded tubular members used as bracing element...
Dissipative zones in buildings allow for the release of energy when a seismic event occurs. The stru...
Adequate mechanical properties make stainless steel an excellent construction material for structure...
Several technical solutions have been developed and are currently available on the market to realise...