Electromagnetic loading based online measurement system for acoustoelasticity coefficient of metal plate

An acoustoelastic coefficient and measurement system technology, which is applied to measuring devices, using sound waves/ultrasonic waves/infrasonic waves to analyze solids, instruments, etc., can solve problems such as data differences and stress detection results errors, and achieve error reduction, uniform internal stress distribution, and Portable effect

Pending Publication Date: 2017-09-19
HEBEI UNIV OF TECH
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  • Abstract
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  • Application Information

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Problems solved by technology

The ultrasonic method is considered to be one of the most promising methods in stress detection due to its many advantages, but the use of the generation method must obtain the elastic coefficient of the material to be tested in advance
The existing method is to stretch the standard test piece in the laboratory using a material testing machine to obtain the acoustoelastic coefficient of the material, but the difference between the working environment of the tested workpiece and the laboratory environment will make the actual acoustoelastic coefficient of the material Differences with laboratory data lead to errors in stress test results

Method used

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  • Electromagnetic loading based online measurement system for acoustoelasticity coefficient of metal plate
  • Electromagnetic loading based online measurement system for acoustoelasticity coefficient of metal plate
  • Electromagnetic loading based online measurement system for acoustoelasticity coefficient of metal plate

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Embodiment 1

[0028] In this embodiment, the online measurement system for the acoustic elastic coefficient of metal plates based on electromagnetic loading includes a single-chip microcomputer 1, a pulse signal generator 2, an ultrasonic transmitting head 3, an ultrasonic receiving head 5, an oscilloscope 6, an adjustable voltage stabilized power supply 7, and an energy storage capacitor 8. Thyristor 9 and four loading heads 10, the output end of the pulse signal generator 2 is connected to the ultrasonic transmitter 3, the ultrasonic transmitter 3 sends ultrasonic waves to the test piece, and the ultrasonic wave propagates to the ultrasonic receiving head through the test piece 4 5. The ultrasonic receiving head 5 is connected to the oscilloscope 6; the single-chip microcomputer 1 is connected to the control port of the pulse signal generator 2 and the thyristor 9 respectively; The SCR 9 is connected to four loading heads; the four loading heads have the same structure, and the two loading...

Embodiment 2

[0034] This embodiment is based on the online measurement system of the acoustic elastic coefficient of the metal plate under electromagnetic loading, which is characterized in that the system includes a single-chip microcomputer, a pulse signal generator, an ultrasonic transmitting head, an ultrasonic receiving head, an oscilloscope, an adjustable regulated power supply, an energy storage capacitor, an adjustable Controlled silicon and four loading heads, the output end of the pulse signal generator is connected with the ultrasonic transmitter head, the ultrasonic transmitter head emits ultrasonic waves to the piece to be tested, the ultrasonic wave propagates to the ultrasonic receiving head through the piece to be tested, and the ultrasonic receiving head is connected to an oscilloscope; The single-chip microcomputer is respectively connected with the pulse signal generator and the control port of the thyristor; the output terminal of the adjustable voltage stabilized power s...

Embodiment 3

[0036] The structure of each part of the measurement system of this embodiment is the same as that of Embodiment 2, except that the shape of the permanent magnet in this embodiment is U-shaped (see Figure 6 ). The wire of the excitation coil is an enamelled copper wire with a diameter of 1.2mm, and the number of winding turns is 180 turns.

[0037] What is not mentioned in the present invention is applicable to the prior art.

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Abstract

The invention relates to an electromagnetic loading based online measurement system for an acoustoelasticity coefficient of a metal plate. The online measurement system is characterized by comprising a single chip microcomputer, a pulse signal generator, an ultrasonic emitting head, an ultrasonic receiving head, an oscilloscope, an adjustable voltage-stabilized power supply, an energy-storage capacitor, controllable silicon and four loading heads, wherein an output end of the pulse signal generator is connected with the ultrasonic emitting head; the ultrasonic emitting head emits ultrasonic waves to a to-be-measured piece; the ultrasonic waves are transmitted to the ultrasonic receiving head through the to-be-measured piece; the ultrasonic receiving head is connected with the oscilloscope; the single chip microcomputer is connected with control ports of the pulse signal generator and controllable silicon; an output end of the adjustable voltage-stabilized power supply is connected with the energy-storage capacitor, controllable silicon and the four loading heads sequentially; the four loading heads are of the same structure, two loading heads constitute one group, and each group is of a vertically symmetrical structure to be arranged on the upper surface and the lower surface of the to-be-loaded metal plate; each loading head comprises an exciting coil and a permanent magnet.

Description

technical field [0001] The invention belongs to the technical field of nondestructive testing, and in particular relates to an online measurement system for the acoustic elastic coefficient of a metal plate based on electromagnetic loading. Background technique [0002] Under the influence of stress factors, metal parts will have defects or even break, causing serious consequences. Therefore, the study and detection of stress in metal materials is of great significance to production and scientific experiments. The ultrasonic method is considered to be one of the most promising methods in stress testing due to its many advantages, but the elastic coefficient of the material to be tested must be obtained in advance when using the generation method. The existing method is to stretch the standard test piece in the laboratory using a material testing machine to obtain the acoustoelastic coefficient of the material, but the difference between the working environment of the tested...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N29/07G01N19/00
CPCG01N19/00G01N29/07G01N2291/0234
Inventor 张闯李乘风刘素贞杨庆新
Owner HEBEI UNIV OF TECH
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