Bridge damage identification method based on non-iterative finite element model correction

A technology for model correction and damage identification, applied in instruments, complex mathematical operations, design optimization/simulation, etc., can solve problems such as time-consuming and cost-intensive, and achieve the effect of reducing the amount of calculation and calculation cost, and improving calculation efficiency

Active Publication Date: 2022-06-03
HEFEI UNIV OF TECH
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Problems solved by technology

However, the optimization techniques used in most finite element model correction methods are iterative, and it takes a lot of time and cost to calculate the updated stiffness and damping matrix of the bridge, and iterative model correction based on frequency and mode shape needs to determine the frequency and mode shape in advance Weights

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  • Bridge damage identification method based on non-iterative finite element model correction
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  • Bridge damage identification method based on non-iterative finite element model correction

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Embodiment Construction

[0064] Example 1: figure 2 The simply supported concrete beam of equirectangular section shown has a beam span length of 6m, an elastic modulus of 3.2Gpa and a density of 2500kg / m 3 , the section width is 0.2m, the height is 0.25m, and the moment of inertia is 2.604×10 -4 m 4 . The concrete beam is divided into 6 plane Euler beam elements at equal intervals, and the initial beam finite element model without damage is established by MATLAB software. Assuming damage occurs at element 4, the corresponding stiffness is reduced by 40%, the damping ratio is 1% Rayleigh damping matrix, and MATLAB software is used to establish the actual beam finite element model under damage. A pulse excitation of 500N is applied along the -y direction at node 5, and the dynamic response of the beam is calculated by the Newmark-β method. The sampling frequency was 500 Hz and 5% rms noise was added to the acceleration data. The actual finite element model of the damaged concrete beam is updated ...

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Abstract

The invention discloses a bridge damage identification method based on non-iterative finite element model correction, and the method comprises the steps: employing the acceleration response of a bridge under the action of pulse excitation or environment excitation, and recognizing the inherent frequency, damping ratio and vibration mode of the bridge from the acceleration response through a random subspace algorithm; the identified modal parameters are utilized to reconstruct characteristic values and characteristic vectors of a state space matrix according to a preferred direction and sequence, and the characteristic values and the characteristic vectors serve as targets of modal parameter assignment in the non-iterative finite element model correction process; therefore, the state space matrix of the initial bridge finite element model is uniquely corrected, the updated bridge rigidity and damping matrix is calculated through the state space matrix, and then the damage position and degree of the bridge are identified by using the change of the units in the updated bridge rigidity matrix. The method can effectively solve the problem that most existing bridge damage recognition based on iterative finite element model correction is large in calculation workload, so that the damage recognition efficiency can be improved, and the calculation cost is reduced.

Description

technical field [0001] The invention relates to the field of bridge safety monitoring and detection, in particular to a bridge damage identification method based on non-iterative finite element model correction, and the update result can be used for damage identification and safety assessment of bridge structures. Background technique [0002] With the development of the finite element method, the finite element model can be used to calculate the dynamic response of the bridge under various loads and various boundary conditions. The analysis speed is fast, the structural design period is short, and the efficiency and cost are high compared with the structural dynamic test. It can be widely used in bridge structural health monitoring. Therefore, a reliable and accurate finite element model is the basis for bridge structural damage identification, health diagnosis, and bridge working condition evaluation and prediction, that is, the premise of damage identification is to modif...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F30/23G06F17/16G06F119/14
CPCG06F30/23G06F17/16G06F2119/14Y02T90/00
Inventor 贺文宇王亮杨栋张静
Owner HEFEI UNIV OF TECH
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