Evaluation method of earthquake resistant performance of steel tube concrete building and application

Abstract

The invention relates to an evaluation method of earthquake resistant performance of a steel tube concrete building. A building support component is formed by steel tube concrete. The evaluation method comprises the following steps of establishing a space fiber beam finite element model of the steel tube concrete building, developing an analysis method suitable for a fiber beam, considering that the confinement effect and the material characteristic of the elasto-plasticity under earthquake cyclic loading damage a constitutive model and a corresponding subprogram, calculating the finite element model by adopting a software and combining with the material subprogram, evaluating the earthquake resistant performance, and designing the earthquake resistant measure of the building. In the provided evaluation method of the earthquake resistant performance of the steel tube concrete building, the earthquake resistant performance of the building is evaluated on the basis of the maximum inter-story displacement angle limit value required by a steel tube concrete structure by establishing the space fiber beam finite element model of the steel tube concrete building, developing the analysis method suitable for the fiber beam, considering that the confinement effect and the material characteristic of the elasto-plasticity under earthquake cyclic loading damage the constitutive model, calculating the finite element model by adopting the software and obtaining the maximum inter-story displacement angle of the building, and building earthquake resistant measures are planed according to the evaluation result of the earthquake resistant performance of the building.

Description

technical field [0001] The invention relates to a method for evaluating the anti-seismic performance of a building and its application, in particular to a method for evaluating the anti-seismic performance of a steel pipe concrete building and its application. Background technique [0002] At present, the anti-seismic design of buildings requires "not damaged by small earthquakes, repairable by moderate earthquakes, and not collapsed by large earthquakes". For specific structural designs, it is required that the seismic calculation of high-rise buildings is mainly under the action of frequent earthquakes, and the earthquake is calculated according to the response spectrum theory. The elastic method is used to calculate the internal force and displacement, and the limit state method is used to design the components; for important buildings or special requirements, the direct dynamic method-time history analysis method is used to supplement the calculation, and the deformation ...

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Problems solved by technology

[0007] The technical problem solved by the present invention is: to overcome the technical problem that in the prior art, the elastic-plastic dynamic time-history analysis method is not used to analyze the seismic performance of the steel pipe concrete building, and the seismic performance analysis effect is poor

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