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A platform for research: civil engineering, architecture and urbanism
Shear design curves of unstiffened plate girder web panels at high temperatures
Abstract Owing to the lack of an analytical research on the evaluation of mode change of web panels in addition to the need for shear design curves of unstiffened plate girder web panels exposed to shear buckling especially at elevated temperatures, the present article considers the mentioned topics. To this end, the web panel shear design relationships mentioned in AISC360-16 are modified to be used in fire conditions. This is achieved by direct utilization of steel stress-strain reduction factors in EN1993-1-2 at elevated temperatures. Analytical equations and design curves are developed to estimate the ultimate shear strength, failure mode and critical limiting temperature for the web panels under the action of a specific shear load. The results based on the curves are compared to the findings of current paper numerical analysis, existing experimental and numerical studies, indicating a good agreement between the results.
Highlights The shear behavior of unstiffened web panels (UWPs) subjected to shear buckling at elevated temperatures was investigated. Design curves have been developed to predict the shear strength and failure mode of UWPs at a constant temperature. Design curves have been proposed to determine the critical limiting temperature of UWPs subjected to constant shear load.
Shear design curves of unstiffened plate girder web panels at high temperatures
Abstract Owing to the lack of an analytical research on the evaluation of mode change of web panels in addition to the need for shear design curves of unstiffened plate girder web panels exposed to shear buckling especially at elevated temperatures, the present article considers the mentioned topics. To this end, the web panel shear design relationships mentioned in AISC360-16 are modified to be used in fire conditions. This is achieved by direct utilization of steel stress-strain reduction factors in EN1993-1-2 at elevated temperatures. Analytical equations and design curves are developed to estimate the ultimate shear strength, failure mode and critical limiting temperature for the web panels under the action of a specific shear load. The results based on the curves are compared to the findings of current paper numerical analysis, existing experimental and numerical studies, indicating a good agreement between the results.
Highlights The shear behavior of unstiffened web panels (UWPs) subjected to shear buckling at elevated temperatures was investigated. Design curves have been developed to predict the shear strength and failure mode of UWPs at a constant temperature. Design curves have been proposed to determine the critical limiting temperature of UWPs subjected to constant shear load.
Shear design curves of unstiffened plate girder web panels at high temperatures
Pourmoosavi, Gh (author) / Ghasemi, S.A. Mousavi (author) / B. Farahmand Azar (author) / Talatahari, S. (author)
2019-10-12
Article (Journal)
Electronic Resource
English
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