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A New Method for Structural Damage Location Based on Acoustic Emission

A technology for structural damage and acoustic emission, which is used in material analysis using sonic emission technology, processing response signals of detection, and material analysis using sonic/ultrasonic/infrasonic waves. It can solve the problem of reducing bridge service performance and durability, fatigue crack , longitudinal rib water accumulation and other problems, to achieve the effect of stable damage positioning effect

Active Publication Date: 2022-07-19
HEFEI UNIV OF TECH
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, the orthotropic steel bridge deck not only participates in the overall stress of the structure as a part of the main girder, but also directly bears the repeated load of the wheel, resulting in too many local stress cycles, plus the influence of welding defects and stress concentration , making it prone to fatigue cracks
If the cracks cannot be found in time, it will also cause problems such as water accumulation in the longitudinal ribs, further reduce the service performance and durability of the bridge, lead to the collapse of the bridge deck system, and even cause the sudden destruction of the entire bridge

Method used

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  • A New Method for Structural Damage Location Based on Acoustic Emission
  • A New Method for Structural Damage Location Based on Acoustic Emission
  • A New Method for Structural Damage Location Based on Acoustic Emission

Examples

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Embodiment

[0091] (1) The main content of the research in this example is the damage localization of the orthotropic steel bridge deck, which is used to verify the acoustic emission source localization based on empirical wavelet and long-short-term memory neural network proposed in this patent (the damage localization of the structure is relative to the sensor location) method’s effectiveness and practicality. The experimental equipment used is a multi-channel acoustic emission data acquisition system. The operating frequency range of the acoustic emission sensor is 100-1000kHz. The four acoustic emission sensors are installed at the vertex position of the grid of the area to be measured using magnetic fixtures and couplants, and then connected to the data acquisition board through the preamplifier for acoustic emission data collection. , the magnification is set to 40dB, and the sampling rate is set to 5MS / s. The damage acoustic emission source is simulated by the standard lead breakin...

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Abstract

The invention relates to the field of damage detection, in particular to a new method for locating structural damage based on acoustic emission. S1, collect the acoustic emission signals when the structure to be tested is damaged by each acoustic emission sensor; S2, calculate the time difference between the acoustic emission signals reaching any two acoustic emission sensors; S3, input all the time differences in step S2 into the training In the neural network model, the damage position of the structure to be tested is obtained, and the damage position is the relative position between the damage position of the structure to be tested and one of the acoustic emission sensors S. The detection method of the invention can reduce the influence of the acoustic emission signal on the accuracy of the detected damage position due to the dispersion phenomenon, the propagation path and the environmental noise during the propagation process.

Description

technical field [0001] The invention relates to the field of damage detection, in particular to a new method for locating structural damage based on acoustic emission. Background technique [0002] The orthotropic steel bridge deck (structure) is welded by longitudinal ribs, diaphragms and decks that are perpendicular to each other. Due to the dense arrangement of longitudinal ribs in structure and the sparse arrangement of diaphragms, the stiffness is greatly different in two directions perpendicular to each other, so it is called an orthotropic steel bridge deck. With the advantages of light weight, good integrity and large bearing capacity, the structure can better solve the contradiction between the bridge weight, load-bearing and span, and is widely used in large and medium-sized public and railway bridges at home and abroad. However, the orthotropic steel bridge deck not only participates in the overall stress of the structure as part of the main beam, but also direct...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N29/14G01N29/44
CPCG01N29/14G01N29/4481G01N2291/0234
Inventor 李丹聂佳豪汪国华王扬胡晨迅
Owner HEFEI UNIV OF TECH
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