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A method of magnetic particle flaw detection for pressed bearings

A technique of pressing bearings and magnetic particle flaw detection, which is applied in the direction of material magnetic variables, etc., can solve the problems of polluting the environment, high cost, and low flaw detection sensitivity

Active Publication Date: 2018-06-22
洛阳轴研科技有限公司
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

2. Pollution of the environment and harmful to health
3. High cost
Moreover, the detection area is limited
4. Low detection sensitivity
In the usual flaw detection process, the penetrant method is not as sensitive as the magnetic flaw detection method

Method used

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  • A method of magnetic particle flaw detection for pressed bearings

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Embodiment Construction

[0017] In order to make the content of the present invention more obvious and understandable, the present invention will be described in detail below in conjunction with specific examples.

[0018] As shown in the figure, a magnetic particle flaw detection method for pressing down bearings includes the following steps:

[0019] Step 1. First, place the stand for carrying the pressed bearing 1 on the magnetic particle flaw detector, and lay a layer of nylon insulating board on the stand, and then place the pressed bearing 1 to be tested on the nylon insulating board;

[0020] Step 2. Vertically arrange two rectangular half-coils 2 on the nylon insulation board. The two rectangular half-coils 2 are arranged in a cross, and are covered outside the pressing bearing 1. Both ends of each rectangular half-coil 2 are exposed, and A closed circuit is formed by pressing under the pressing bearing 1;

[0021] Step 3: Put the magnetized rod 3 between the two rectangular semi-coils 2 and ...

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Abstract

The present invention discloses a pressing bearing magnetic particle testing method, which comprises that: a stand is placed on a magnetic particle testing machine, a layer of a nylon insulation plate is paved on the stand, and then a pressing bearing to be detected is placed on the nylon insulation plate; two rectangular half-coils are vertically arranged on the nylon insulation plate, are arranged in a cross manner, and cover outside the pressing bearing, both ends of each rectangular half-coil are exposed, and the rectangular half-coils are pressed below the pressing bearing to form a closed circuit; a magnetization rod is arranged between the two rectangular half-coils and the pressing bearing in a penetration manner, testing sensitivity test sheets are respectively adhered on the edge of the pressing bearing surface, and primary testing detection is performed; and after the primary testing detection is completed, the pressing bearing is turned over, and secondary testing detection is performed, wherein the pressing bearing magnetic particle testing detection is completed after completing the secondary testing detection. According to the present invention, the cross induced current method is used so as to complete the magnetization testing in the two direction of the pressing bearing surface in one time.

Description

technical field [0001] The invention belongs to the field of bearing flaw detection, and mainly relates to a magnetic particle flaw detection method for pressing down a bearing. Background technique [0002] Magnetic particle testing is an effective non-destructive flaw detection method. Generally, the flaw detectors purchased in bearing factories are aimed at the hollow structure of bearings, and use the rod-through method and the induced current method to perform composite magnetization flaw detection. However, some bearing parts, such as pressed bearings, have only a small hoisting hole in the center, so it is impossible to carry out rod-piercing flaw detection. The traditional alternative flaw detection method is: penetration method. But infiltration has its inherent drawbacks. 1. Time-consuming and labor-intensive. Penetration testing needs to go through the following procedures: initial surface cleaning, penetration time, cleaning time after penetration, imaging tim...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N27/84
Inventor 杨俊生杨少斌白怡涛
Owner 洛阳轴研科技有限公司
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