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Engineering testing method of vibration field of non-uniform arrangement structure

A technology of structural vibration and testing methods, applied in vibration testing, testing of machine/structural components, measuring devices, etc., can solve problems such as difficulty in arranging sensors, data deviation, sensors and signal lines to increase structural dynamic characteristics and additional mass, etc. Wide application prospects, reducing the number of measuring points, simple and accurate test results

Active Publication Date: 2018-02-27
CHINA SHIP DEV & DESIGN CENT
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Problems solved by technology

This traditional method has a heavy workload for test preparation; testing the overall vibration of the structure also requires uniform arrangement of sensors at various positions on the structure, but it is difficult to arrange sensors in many positions due to factors such as equipment occupation and small space; a large number of sensors and signal lines also increase the possibility Additional mass affecting the dynamic properties of the structure
If the sensor coverage density is reduced, too few sensors may lead to the risk of data deviation. Therefore, the traditional large-structure vibration test method is difficult to implement. Optimizing the number and arrangement of sensors is an important research direction to simplify engineering testing.

Method used

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  • Engineering testing method of vibration field of non-uniform arrangement structure
  • Engineering testing method of vibration field of non-uniform arrangement structure
  • Engineering testing method of vibration field of non-uniform arrangement structure

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Embodiment 1

[0044] In this example, the single-layer cylindrical shell 1 (closed at both ends) is subjected to modal test and vibration response test under water, and then the data is processed according to the condition number measurement point reduction method and the structural noise reconstruction method, and finally the reconstructed shell is obtained The vibration response data of the body model were compared and analyzed with the measured data to verify the accuracy of the method results.

[0045] The experimental cylindrical shell model has an axial length of 1.8 meters, a diameter of 1.2 meters, and a shell thickness of 0.8 centimeters. The axial ends of the cylindrical shell are sealed with arched sealing plates. The thickness of the sealing plate is 1.2 cm, and the thickness of the flange connecting it with the shell is 3 cm. The distance between the upper surface and the water surface is 6 meters when measured underwater.

[0046] The model experiments were carried out in a re...

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Abstract

The invention relates to an engineering testing method of the vibration field of a non-uniform arrangement structure. Based on the condition number of a structural vibration modal matrix, vibration measuring points causing an increase of the condition number of the matrix are removed in the loop iteration process, so that reduction of the number of the measuring points and optimization of the positions of the measuring points are achieved. Then based on a mode superposition method, only measuring data of the optimized measuring points with the number reduced is adopted, and vibration field reconstruction of the whole large structure is achieved. According to the method, a few sensors are optimized for position arrangement, and the vibration response field of the whole structure is reconstructed by means of the measuring data of the sensors, so that space and weight are saved, the testing workload is significantly relieved, and a monitoring position optimization method is provided for avibration monitoring system.

Description

technical field [0001] The invention belongs to the technical field of vibration testing of large-scale structures in shipbuilding engineering, and in particular relates to an engineering testing method for vibration fields of non-uniformly distributed structures. Background technique [0002] The traditional method of vibration testing of large structures in ship engineering is to evenly arrange hundreds of sensors and their signal lines on the structure, and use the method of completely covering the sensors at all parts of the structure to achieve the purpose of measuring the vibration response of each part of the structure. This traditional method has a heavy workload for test preparation; testing the overall vibration of the structure also requires uniform arrangement of sensors at various positions on the structure, but it is difficult to arrange sensors in many positions due to factors such as equipment occupation and small space; a large number of sensors and signal li...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01M7/02
CPCG01M7/00
Inventor 原春晖阮竹青田波张俊杰彭伟才刘彦郎波张科王冠袁兴军
Owner CHINA SHIP DEV & DESIGN CENT
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