Theoretical studies For most structures, the thermo-structural coupling is small, and the deformation of the structure caused by high temperature generally does not lead to changes in thermal boundary conditions. Therefore, thermal reaction and structural reaction can be regarded as two independent processes. To analyze the calculations. Thermal analysis The temperature field calculation of a component under a given fire air temperature rise condition is based on the basic equation of heat conduction, and the finite difference method or the finite element method is often used for numerical solution. For components with relatively simple temperature field distribution, after some simplifying assumptions, the approximate solution can be obtained according to the lumped heat capacity method, and a practical formula for calculating the temperature of the component is established.
Ac = Kp / tp (32) where Ac is the corrected heat convection coefficient, Kp is the thermal conductivity of the fire protection material, and tp is the thickness of the fire protection material. The calculations show that the temperature calculated by the finite element is higher than the temperature calculated by the practical temperature calculation method of the EC3 component. Franssen believes that there are two main reasons for this difference: one is that the temperature of the adjacent component is higher, and there are some The heat is transferred to the connection node; the second is that the size and components of the connection component are not an order of magnitude, and the component temperature calculation method is not fully applicable to the calculation of the connection temperature.
The structural analysis has done a lot of research work on the finite element calculation of the connection fire resistance performance. The finite element model is as follows: All the plates are simulated by the 8-node shell element, and the bolts are simulated by one-dimensional rod element, and the connection is not considered. The contact problem in the middle; obviously, the model is relatively rough compared to the finite element analysis model commonly used at room temperature. Based on the analysis of the bending moment-rotation angle of the joint method at room temperature, the high-temperature material and temperature load of the steel were introduced, which was extended to analyze the whole process reaction calculation under the fire. The experimental and theoretical analysis of the mechanical properties of the connected tension zone and the compression zone under fire were carried out. China's research in this area has been carried out relatively late. Only Tongji University has done some theoretical research on high-temperature tension and shear high-strength bolting.
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