Multi-scale entropy characterization method of inner defect distribution of anchoring system

A multi-scale entropy and anchoring system technology, applied in the field of anchoring systems, can solve problems affecting coal mine safety production, adverse effects of bolt anchorage quality, uneven stress distribution of anchor bolts, etc., to achieve visualization, intelligence, and accurate evaluation of anchorage Quality, easy-to-use effects

Inactive Publication Date: 2016-11-23
CHINA UNIV OF MINING & TECH
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Problems solved by technology

[0002] Existing studies have shown that the stress distribution along the length of the anchor is not uniform
The different distribution positions of the anchoring defects will lead to differences in the stress state of the anchor rod.
In the actual detection of underground coal mines, even if the pull-out resistance is confirmed to meet the requirements through the pull-out test, there will still

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  • Multi-scale entropy characterization method of inner defect distribution of anchoring system
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  • Multi-scale entropy characterization method of inner defect distribution of anchoring system

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Embodiment Construction

[0026] The present invention will be further explained below in conjunction with specific embodiments.

[0027] refer to figure 2 , a multi-scale entropy characterization method for the internal defect distribution of the anchorage system proposed by the present invention, comprising the following steps:

[0028] S1: Use the nondestructive testing instrument for bolt anchorage quality based on the stress wave method to detect the anchor bolts that need to be inspected at the work site, identify the anchorage length of the bolt bolts, and perform empirical mode decomposition on the nondestructive detection signals, decomposing them into a series of signals according to For the eigenmode functions arranged in high and low frequencies, use Fourier transform to calculate the frequency of the eigenmode functions of each layer, discard the eigenmode functions with frequencies greater than 1kHz and the last layer of eigenmode functions, and discard the eigenmode functions with frequ...

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Abstract

The invention discloses a multi-scale entropy characterization method of inner defect distribution of an anchoring system. The multi-scale entropy characterization method comprises the following steps: detecting an anchor rod needing to be detected in a working site by utilizing an anchor rod anchoring quality non-destructive testing instrument based on a stress wave method and identifying an anchor rod anchoring length; carrying out empirical mode decomposition on a non-destructive testing signal and decomposing the non-destructive testing signal into a series of intrinsic mode functions which are arrayed according to levels of the frequency of the signal; calculating the frequency of each layer of intrinsic mode function through utilizing Fourier transformation; abandoning the intrinsic mode function with the frequency more than 1kHz and the final layer of intrinsic mode function; overlapping all layers of the intrinsic mode functions with the frequency smaller than 1kHz; and reconstructing a new signal for multi-scale entropy analysis. The change degree of a reflection signal is described through measuring the complexity of a reflected signal, so that the positions of anchoring defects are identified; and the method can be used for effectively judging the positions of the anchoring defects and accurately evaluating the anchoring quality.

Description

technical field [0001] The invention relates to the technical field of anchoring systems, in particular to a multi-scale entropy characterization method for internal defect distribution of an anchoring system. Background technique [0002] Existing studies have shown that the stress distribution along the length of the bolt is not uniform. The difference in the distribution of anchoring defects will lead to differences in the stress state of the anchor rod. In the actual detection of underground coal mines, even if the pull-out resistance is confirmed to meet the requirements through the pull-out test, there will still be collapse accidents due to insufficient mortar pouring, which will affect the safe production of coal mines. The existing technology has poor ability to effectively identify the location of the anchoring defect, and cannot accurately locate the location of the anchoring defect, which in turn has a negative impact on the evaluation of the anchoring quality o...

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Application Information

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IPC IPC(8): G06F19/00
CPCG16Z99/00
Inventor 张雷茅献彪黄志敏陈占清李明吴宇张后全陈彦龙
Owner CHINA UNIV OF MINING & TECH
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