The Heat Effect of Composite Deck Behavior Railroad Bridges (Case Study: Part Two, railroad Project of Meyaneh-Bostanabad-Tabriz)
Subject Areas : Analysis of Structure and Earthquakealireza saeedi 1 , ahmad maleki 2
1 - دانشجوی کارشناسی ارشد واحد مراغه
2 - استادیار واحد مراغه
Keywords: displacement, Thermal Stress, progressive failure, composite bridge, earthquake force,
Abstract :
The large bridges of the new Meyaneh - Tabriz Railroad are located in a region with a high risk of a large earthquake and a slope of sloping soils, which are susceptible to landslides. Depending on the user's specific circumstances, it is simply not possible to identify malicious factors and prevent progressive failures. Regarding the daily and seasonal temperature variation cycles, imposing irreparable damage due to the creation of thermal expansion barriers between the shell and the deck is likely to occur accidentally or deliberately in the structure. Therefore, in order to detect the thermal behavior of the bridge and prevent potential destructive factors, the bridge was investigated using the CSI Bridge software and the results of the heat changes were analyzed. The results show that with increasing temperature gradually, stress, axial, shear and anchor forces increase to 60 ° C uniformly. With temperature reaching 65 ° C, the stress caused by heat changes increased by 17.7%. Applying a temperature of 800 ° C in the middle span with a sharp change in the axial and shear forces of 9833 tons and flexural anchorage of 2074 tons per meter and a displacement of 24.34 cm. were calculated.
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