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A platform for research: civil engineering, architecture and urbanism
Buckling control of cast modular ductile bracing system for seismic-resistant steel frames
Abstract The buckling behavior of a new ductile bracing concept for steel structures is examined. The system makes use of cast components introduced at the ends and the center of the brace to produce a special bracing detail with reliable strength, stiffness and deformation capacity. The system takes advantage of the versatility in geometry offered by the casting process to create configurations that eliminate non-ductile failure modes in favor of stable inelastic deformation capacity. This paper presents analytical research performed to determine the buckling strength and buckling direction of the bracing element based on the geometries of the cast components. Limiting geometries are determined for the cast components to control the buckling direction. Design formulas for buckling strength are proposed.
Highlights ► Cast modular ductile bracing system is being developed as alternative to steel SBCFs; ► Design geometries determined to control buckling direction for intended mechanism; ► Design compressive (buckling) strength formulas are proposed.
Buckling control of cast modular ductile bracing system for seismic-resistant steel frames
Abstract The buckling behavior of a new ductile bracing concept for steel structures is examined. The system makes use of cast components introduced at the ends and the center of the brace to produce a special bracing detail with reliable strength, stiffness and deformation capacity. The system takes advantage of the versatility in geometry offered by the casting process to create configurations that eliminate non-ductile failure modes in favor of stable inelastic deformation capacity. This paper presents analytical research performed to determine the buckling strength and buckling direction of the bracing element based on the geometries of the cast components. Limiting geometries are determined for the cast components to control the buckling direction. Design formulas for buckling strength are proposed.
Highlights ► Cast modular ductile bracing system is being developed as alternative to steel SBCFs; ► Design geometries determined to control buckling direction for intended mechanism; ► Design compressive (buckling) strength formulas are proposed.
Buckling control of cast modular ductile bracing system for seismic-resistant steel frames
Federico, G. (author) / Fleischman, R.B. (author) / Ward, K.M. (author)
Journal of Constructional Steel Research ; 71 ; 74-82
2011-11-21
9 pages
Article (Journal)
Electronic Resource
English
Buckling control of cast modular ductile bracing system for seismic-resistant steel frames
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