A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Design of intermediate transverse stiffeners for shear web panels
Highlights A methodology for the design of intermediate transverse stiffeners was suggested. Equations were formulated through linear elastic buckling and nonlinear analyses. Comparative study was made with AASHTO LRFD and AISC Specifications. The research found that these Specifications are too conservative.
Abstract The function of intermediate transverse stiffeners attached on plate girder web panels is to provide simple supports so as to reduce the panel aspect ratio, thereby increasing the shear buckling strength. This study investigates the moments of inertia of the transverse stiffeners required to maintain the simple support condition not just for elastic buckling but also for postbuckling through linear buckling and nonlinear finite element analyses. From nonlinear regression analyses of the FEA results, a set of design equations are formulated and compared with the current provisions in AISC and AASHTO LRFD specifications. It is found that the design equation for elastic buckling in AISC and AASHTO LRFD specifications is too conservative especially when the aspect ratio is greater than 1.0. Also, the design equation for postbuckling in AISC and AASHTO specifications results in designs that are too conservative due to oversimplification.
Design of intermediate transverse stiffeners for shear web panels
Highlights A methodology for the design of intermediate transverse stiffeners was suggested. Equations were formulated through linear elastic buckling and nonlinear analyses. Comparative study was made with AASHTO LRFD and AISC Specifications. The research found that these Specifications are too conservative.
Abstract The function of intermediate transverse stiffeners attached on plate girder web panels is to provide simple supports so as to reduce the panel aspect ratio, thereby increasing the shear buckling strength. This study investigates the moments of inertia of the transverse stiffeners required to maintain the simple support condition not just for elastic buckling but also for postbuckling through linear buckling and nonlinear finite element analyses. From nonlinear regression analyses of the FEA results, a set of design equations are formulated and compared with the current provisions in AISC and AASHTO LRFD specifications. It is found that the design equation for elastic buckling in AISC and AASHTO LRFD specifications is too conservative especially when the aspect ratio is greater than 1.0. Also, the design equation for postbuckling in AISC and AASHTO specifications results in designs that are too conservative due to oversimplification.
Design of intermediate transverse stiffeners for shear web panels
Lee, Sung C. (author) / Lee, Doo S. (author) / Yoo, Chai H. (author)
Engineering Structures ; 75 ; 27-38
2014-05-22
12 pages
Article (Journal)
Electronic Resource
English
Design of intermediate transverse stiffeners for shear web panels
| Online Contents | 2014
Behavior of Intermediate Transverse Stiffeners Attached on Web Panels
| British Library Online Contents | 2002
Behavior of Intermediate Transverse Stiffeners Attached on Web Panels
| Online Contents | 2002
New Design Rule for Intermediate Transverse Stiffeners Attached on Web Panels
| Online Contents | 2003
New Design Rule for Intermediate Transverse Stiffeners Attached on Web Panels
| British Library Online Contents | 2003