KR101649866B1 - X-ray Scan Method of Micro Cell Material using Injection of Tracer - Google Patents

Abstract

Sectional image of a porous microcellular structure material is obtained by using X-ray CT imaging for the purpose of grasping the cell characteristic of the porous microcellular structural material, and the cross-sectional image of the porous microcellular structural material is obtained by pre- X-ray CT images of the porous microcellular structure material using the direct chemical liquid injection, which can easily extract the sample for statistical calculation of the cell characteristics and acquire a clear image of the cell Quot; acquisition method ".
In the present invention, a needle 3 for injecting a chemical liquid is passed through a sample to be imaged of a porous microcellular structure material so that the injection end of the chemical solution of the needle 3 is positioned inside each pore-forming cell (Step S1) of injecting the contrast medium 2 through the needles 3 to fill the contrast medium 2 in the individual cells; And an X-ray CT imaging step (step S2) of irradiating the sample to be imaged with the contrast agent with the X-ray using an X-ray CT imaging apparatus (step S2). -ray A method of acquiring a CT image is provided.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for acquiring an X-ray CT image of a porous microcellular structure material using direct injection of a contrast medium,

The present invention relates to a method of acquiring an X-ray CT image of a porous microcellular structure material, and more particularly, to a method of acquiring a porous microcellular structure material by using an X-ray CT By performing a preprocessing operation on the porous microcellular structural material in such a manner that the cross-sectional image is acquired and the cell is filled with the injection of the contrast medium, samples for statistical estimation of the cell characteristics are easily extracted, X-ray CT imaging method of porous fine cell structure material using direct imaging liquid injection ", which makes it possible to acquire a clear image.

 The "porous fine cell structural material" is composed of an aggregate of a plurality of fine cells corresponding to closed pores (voids), and has a light weight property and is excellent in heat insulation performance. Therefore, It is very useful. Korean Patent Laid-Open Publication No. 10-2010-0075414 discloses a rigid polyurethane foam and a composition for producing the same as an example of a material having such a fine cell structure. In FIG. 1, a conventional porous fine cell structure A photograph of the internal cross-sectional structure of the material taken by an electron microscope is shown.

The size, shape and distribution of each cell (a pore forming one space closed by a partition wall) and the degree of connection between cells in such a porous fine cell structure material are influenced by the quality and performance of the cell Therefore, it is very important to grasp the characteristics (size, shape, distribution, degree of connection between cells, etc.) of the cells with respect to the porous microcellular structure material. However, since the porous microcellular structure material is composed of a large number of cells, it is practically impossible to grasp the above characteristics for all the cells. Therefore, a predetermined number of cells are sampled as a sample (sampling) And the result is to be used as a cell characteristic of the porous fine cell structure material.

On the other hand, "X-ray CT imaging" has been used as a method of acquiring a visual image of an internal structure of an object in various fields including the medical field. In particular, the present inventor has developed a method of measuring the void ratio of the gravel by using X-ray CT and obtained a Korean patent (Korean Patent No. 10-1110787). As described above, X-ray CT imaging can be usefully used for grasping the internal structure of an object. For example, the size, shape and distribution of a cell, As a means to effectively analyze X-ray CT scans.

Korean Patent Laid-Open No. 10-2010-0075414 (Published on Mar. 2010, 2010) Korean Registered Patent No. 10-1110787 (disclosed on Feb. 16, 2012)

The present invention utilizes X-ray CT for understanding the "cell characteristics" such as the size, shape and distribution of cells, and the degree of connection between cells for a porous fine cell structure material that can be usefully used as an insulating material or the like It is aimed to provide a technology that can be used.

More particularly, the present invention relates to a method for acquiring a photographed image of an internal structure of a porous fine cell structure material by performing X-ray CT imaging so as to grasp the cell characteristics of the porous fine cell structure material, And obtaining a clear image of the cell by performing a preprocessing operation for acquiring a sample for the X-ray CT image.

In order to achieve the above object, according to the present invention, there is provided a method for acquiring an X-ray CT image of a sample of a porous fine cell structural material, comprising the steps of: injecting a chemical solution injecting needle (3) And injecting the contrast medium through the needles to fill the interior of the individual cells with the contrast medium, in a state in which the injection end of the chemical solution is pierced through the sample to be imaged and positioned inside the individual cells forming pores An injection step; And an X-ray CT imaging step of irradiating an X-ray CT imaging device with a sample to be imaged having a contrast medium injected thereon, the X-ray CT imaging step. An image acquisition method is provided.

According to the present invention, a clear X-ray CT image of a cell constituting a porous fine cell structure material can be acquired by an X-ray CT imaging apparatus, and therefore, the X-ray CT obtained by the method of the present invention Using the photographed image, it is possible to effectively and accurately analyze the "cell characteristics" such as the size, shape and distribution of cells constituting the porous fine cell structure material, and the degree of connection between cells.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a photograph showing an internal cross-sectional structure of a conventional porous fine cell structure material taken by an electron microscope.
FIG. 2 is a schematic flow chart showing a configuration of a method of acquiring an X-ray CT image of a porous fine cell structural material according to the present invention.
FIG. 3 is a photograph showing an X-ray CT image obtained by performing an X-ray CT without a pretreatment step by injecting a contrast medium.
FIG. 4 is a schematic view for explaining injection of a contrast medium into a gap of each of a plurality of cells by an injection method as a pretreatment process according to the method of the present invention.
FIG. 5 is a schematic view of an X-ray CT image obtained by performing an X-ray CT scan after injecting a contrast medium into a cell gap.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby.

FIG. 2 is a schematic flow chart showing a configuration of a method for acquiring an X-ray CT image of a porous microcellular structure material according to the present invention. FIG. 3 is a schematic cross- ray CT image obtained by performing an X-ray CT scan. FIG. 4 is a schematic view illustrating a pretreatment process of injecting a contrast medium into a pore of a cell according to the method of the present invention. FIG. 5 is a schematic view showing the injection of X-ray CT images of the sample after injection of the contrast medium as shown in FIG. 4, A schematic view of a CT photographed image is disclosed.

As shown in the drawing, a method of acquiring an X-ray CT image of a porous fine cell structure material according to the present invention includes a step of injecting a contrast medium for a sample of a porous fine cell structure material (step S1) And an X-ray CT imaging step (step S2) of the injected imaging object sample.

First, as shown in FIG. 4, a needle 3 for injecting a chemical liquid is passed through a sample to be imaged of a porous fine cell structural material, and a chemical solution injection end of the needle 3 (2) is injected through the needle (3) to fill the inside of the cell (the void of the cell) into which the end of the needle (3) is inserted, while being placed inside the individual cells forming the pores . This penetration of the needle 3 and the chemical solution injection process are repeated at the required number of times.

After filling the plurality of cells with the imaging liquid by the injection method, that is, by the injection method, the object to be imaged of the porous fine cell structural material is photographed by using a known X-ray CT imaging apparatus, And acquires an image. Generally, when the X-ray CT imaging is performed on the porous microcellular structure material without the pretreatment through the injection of the contrast medium 2 as in the present invention, as shown in FIG. 3, Only the image in a state in which it can not be distinguished is acquired. The porous fine cell structure material is made of a lightweight material, and the thickness of the partition wall separating each cell is very thin. Therefore, when X-ray CT images were taken without pre-treatment on the porous microcellular structure material, the partitioning walls separating the cells in the X-ray CT images were properly displayed due to the characteristics of thin partition walls and very light material properties themselves Only the image of the form in which each cell boundary is not seen at all is acquired as shown in FIG.

On the other hand, according to the present invention, since a pre-treatment process of injecting a contrast medium into vacant pores of a cell is performed and then an X-ray CT is performed, a boundary and a shape of each cell into which the contrast medium is injected are clearly shown A clear X-ray CT image can be obtained. When the X-ray CT imaging is performed in a state in which the contrast medium 2 is injected into the pores of the cell, the X-ray is a liquid material that does not transmit the X- It is impossible to transmit the chemical solution 2, so that an X-ray CT image is obtained in which the shape and size of the cell into which the contrasting medicament 2 is injected are clearly visible as shown in FIG.

After obtaining a clear X-ray CT image of the porous fine cell structure material in which the boundaries and the shapes of the cells are clearly shown as shown in FIG. 5, the cells (the contrast medium The cell characteristics of the porous microcellular structure material such as the cell size, shape, distribution, degree of connection between the cells, etc. can be analyzed and calculated.

As described above, according to the present invention, it is possible to acquire a clear X-ray CT photographed image of a cell constituting a porous fine cell structural material by an X-ray CT photographing apparatus, Using the X-ray CT image, the "cell characteristics" such as the size, shape and distribution of the cells constituting the porous fine cell structure material, and the degree of connection between the cells can be analyzed effectively and with high accuracy.

2: contrast medium
3: Needle

Claims (1)

A method of acquiring an X-ray CT photographed image for a photographed sample of a porous fine cell structure material,
Penetrating the needles (3) for penetrating the chemical-solution injecting needle (3) through the sample to be imaged of the porous fine-cell-structured material so that the chemical-liquid injecting end of the needle (3) is located inside the pores of the individual cells; And
Injecting the contrast medium 2 through the needles 3 to inject the contrast medium 2 into each of the cells into which the ends of the needles 3 are inserted,
Irradiating the sample of the porous fine cell structure material into which the contrast medium is injected by using an X-ray CT photographing apparatus to obtain an X-ray CT photographed image, characterized by comprising the steps of: X-ray CT image acquisition method of structural materials.

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