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An experimental device for liquid magnetically sensitive materials

An experimental device and magnetic sensitivity technology, applied in the direction of magnetic performance measurement, etc., can solve the problems of inaccurate experiments, unstable magnetic field, non-uniformity, etc., and achieve the effect of low calorific value, compact structure and large magnetic flux.

Active Publication Date: 2020-09-08
PETROCHINA CO LTD
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] But so far, there is a lack of special experimental equipment for the magnetic response characteristics of the core properties of magnetically sensitive materials. Some use permanent magnets to generate magnetic fields, which are unstable and uneven.
Some use ordinary electromagnets to generate magnetic fields, which are huge in size and high in energy consumption
This type of device does not integrate functions such as heating, magnetic field measurement, and observation and photography, and the experiment is inaccurate and inefficient

Method used

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  • An experimental device for liquid magnetically sensitive materials
  • An experimental device for liquid magnetically sensitive materials

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Embodiment

[0029] This implementation provides an experimental device for liquid magnetically sensitive materials, such as figure 1 and figure 2 As shown, the experimental device includes: a casing 1, a working platform 2, a yoke 3, an armature 4, a heating plate 5, a sample pool 7, a magnetic field detector 9, an imaging device 8 and a stirrer 6;

[0030] The yoke 3 is a U-shaped structure, and the upper end of the U-shaped arm is folded and bent vertically inward to form a magnetic gap. The sample pool 7 is arranged in the magnetic gap. The walls are in contact with each other; the heating plate 5 is fixed at the bottom of the sample pool 7; the armature 4 is wound around the U-shaped middle section of the yoke 3; the magnetic field detector 9 is located on the upper part of the sample pool 7, and its detection probe is placed in the sample pool 7. In the liquid magnetic sensitive material 10, the magnetic field detector 9 is fixed on the working platform 2 through a bracket. The wo...

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Abstract

The invention provides an experimental device of a liquid magnetic sensitive material. The experimental device includes a yoke, an armature, a heating plate, a sample cell and a magnetic field detector. The yoke has a U-shaped structure and the upper end of the U-shaped arm of the yoke is folded and bent vertically inward so as to form a magnetic gap. The sample cell is arranged in the magnetic gap, and two bent end faces of the U-shaped arm of the yoke are in contact with the cell wall of the sample cell. The heating plate is fixedly arranged at the bottom of the sample cell. The armature winds the middle section of the U-shaped yoke. The magnetic field detector is located above the sample cell and a detection probe is located in the liquid magnetically sensitive material contained in thesample cell. The experimental device is compact in structure, high in magnetic flux and low in generated working heat. At the same time of magnetic field generation, the temperature of the experimentmaterial can be controlled, the experiment material can be stirred and the value of the magnetic induction intensity can be measured, and change of characters of the experiment material under the single or combined action of the magnetic field, temperature and stirring can be observed, which make the research of the magnetic property of the liquid magnetic sensitive material convenient and quick.

Description

technical field [0001] The invention belongs to the technical field of magnetic field generators, and relates to an experimental device for liquid magnetically sensitive materials and a method for detecting the magnetic response of liquid magnetically sensitive materials. Background technique [0002] Magnetically sensitive materials are an emerging material research direction. Magnetically sensitive materials are widely used in chemical, medical, petroleum, environmental protection and other industries. [0003] But so far, there is a lack of special experimental equipment for the magnetic response characteristics of the core performance of magnetically sensitive materials. Some of them use permanent magnets to generate magnetic fields, which are unstable and uneven. Some use ordinary electromagnets to generate magnetic fields, which are huge in size and high in energy consumption. This type of device does not integrate functions such as heating, magnetic field measuremen...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01R33/12
CPCG01R33/12
Inventor 侯庆锋杨惠郑晓波郭东红王哲胡广新王淑娟王源源杨晓鹏孙建峰崔晓东
Owner PETROCHINA CO LTD
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