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Seismic damage assessment method of reinforced concrete continuous beam bridges based on energy transfer rate

A technology for reinforced concrete and earthquake damage, applied in special data processing applications, instruments, electrical digital data processing, etc., can solve problems such as serious damage to bearings and unclear damage levels of bridge structures

Active Publication Date: 2019-02-12
JIANGSU OPEN UNIV
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Problems solved by technology

However, the relationship between the damage results of different degrees of components and the overall damage degree of the bridge structure has not been clear. For example, if the evaluation result at the component level is that the support is seriously damaged and the pier is slightly damaged, what is the damage degree of the bridge structure? Therefore, it is necessary to study the method of evaluating the earthquake damage degree of bridges from the perspective of the structure as a whole.

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  • Seismic damage assessment method of reinforced concrete continuous beam bridges based on energy transfer rate
  • Seismic damage assessment method of reinforced concrete continuous beam bridges based on energy transfer rate
  • Seismic damage assessment method of reinforced concrete continuous beam bridges based on energy transfer rate

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specific Embodiment 1

[0040] combine figure 1 , figure 2 , the present invention proposes a method for evaluating earthquake damage of reinforced concrete continuous girder bridges based on energy transfer rate, comprising the following steps:

[0041]S101: According to the relevant design data of the continuous girder bridge to be studied, establish a finite element model for the overall analysis of the reinforced concrete continuous girder bridge structure.

[0042] S102: Combined with the seismic design requirements of the continuous girder bridge analyzed in step S101, carry out nonlinear dynamic time-history analysis on the finite element model of the reinforced concrete continuous girder bridge established in step S101, and find out the faults in the continuous girder bridge structure through a large number of trial calculations Vulnerable components such as piers, bearings, blocks, expansion joints, etc., select key components that affect structural integrity and threaten structural safety...

specific Embodiment 2

[0050] A two-span continuous girder bridge with a main girder length of 14.2m. The cross-section is two T-beams. The lower pier columns are reinforced concrete solid double-column piers.

[0051] First, according to the structural design drawings, the general finite element software is used to establish the overall finite element model of the full bridge structure. Concrete is simulated by solid element, and steel bar is simulated by rod element. The common node connection between steel bar and concrete is adopted, and the slippage and fracture of steel bar and the constraint effect of steel bar on concrete are not considered. The support adopts the spring unit, and the additional mass block adopts the mass unit to simulate.

[0052] Secondly, through a large number of trial calculations, it was found that the vulnerable components in the two-span continuous girder bridge structure include piers, supports, blocks, expansion joints, etc., and the key components were selected as...

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Abstract

The invention provides a seismic damage assessment method of reinforced concrete continuous beam bridges based on an energy transfer rate, comprising the following steps of S1 acquiring vulnerable components in a reinforced concrete continuous beam bridge structure, and screening out key components related to structural safety; S2 according to the failure mechanism of each key component, establishing corresponding failure criterion, obtaining n component parameters related to component damage and the maximum allowable value of each component parameter; 3 carrying out energy analysis of each key component of the continuous beam bridge under different ground motion input condition, obtaining the energy representative value of each key component and the response peak delta i of each componentparameter, and calculating the energy transfer rate of each key component; S4 based on the energy transfer rate, establishing the seismic damage evaluation index D of the reinforced concrete continuous beam bridge. The method of the invention can evaluate various seismic damages of the continuous beam bridge structure-different degrees of damages or even structural collapse based on damage evaluation indexes of the structural hierarchy.

Description

technical field [0001] The invention relates to the field of seismic evaluation of bridges in the field of civil engineering, in particular to an evaluation method for earthquake damage of reinforced concrete continuous girder bridges based on energy transfer rate. Background technique [0002] Reinforced concrete continuous girder bridges are the main type of small and medium-sized bridges in my country. This type of bridge has experienced earthquake damage in many earthquakes. Structural reinforcement or demolition and reconstruction. [0003] To determine the damage degree of the bridge caused by the earthquake is to carry out the seismic assessment of the bridge, and any assessment needs to put forward the assessment index first. In terms of seismic assessment of bridge structures, the structural assessment problem is usually decomposed into component assessment issues. For example, the damage assessment problem of a continuous girder bridge is decomposed into damage ass...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F17/50
CPCG06F30/13G06F30/23
Inventor 黎雅乐杨丙文宗周红
Owner JIANGSU OPEN UNIV
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