JPH01227943A - Method for transferring macro-structure of cut face of metallic test piece - Google Patents

Abstract

PURPOSE:To quickly, certainly, and inexpensively produce data when the a macro-structure of the cut face of a metallic test piece in a etched state is transferred by sticking the sticking surface of a transparent adhesive tape to a mount after the tape is once stuck to and removed from the cut face. CONSTITUTION:At the time of sampling the macro-structure 2' of the cut face 2 of a metallic test piece 1 set in an etched state by applying an acidic etching reagent, a transparent adhesive tape is placed on and pressed against the cut face 2, with the adherent layer 3' being faced to the macro-structure 2'. Then the metallic oxide sample produced as the surface layer of the cut face 2 adheres to the adherent layer 3' of the tape 3. When the tape 3 is removed from the cut face 2 after a sufficient quantity of the sample adheres to the layer 3', the macro-structure is transferred to the tape 3. If the tape 3 is stuck to a mount 4 thereafter, the macro-structure 2' is completely fixed between the tape 3 and mount 4.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a method for testing a cross-sectional macrostructure of metal, and more particularly to a method for transferring and archiving a cross-sectional macrostructure.

[Conventional technology]

Conventionally, a cross-sectional macrostructure test has been used to inspect the penetration depth of metal welds and the hardening depth due to heat treatment such as induction hardening.

This test involves cutting the cut surface of a metal specimen such as steel.

After polishing, the surface is corroded with acid, and the macrostructure of the cross section is inspected visually or with a microscope, and the inspection results are usually preserved by taking photographs or sketching.

[Problem to be solved by the invention]

By the way, the conventional test data storage method described above not only requires skill to create the stored data, but also requires a lot of time and money, and the accuracy of the data is not as good as the time and money spent. There was a problem that it was inferior in quality, and a solution to this problem was desired.

The present invention aims to solve these problems, and allows for quick and accurate transfer by directly transferring from a sample using commonly used office supplies without requiring any special skills. It is an object of the present invention to provide a method for transferring a macrostructure of a cross section of a metal test piece, which enables the accurate creation of data at a low cost, and also facilitates the storage and storage of the created data.

[Means to solve the problem]

In order to achieve the above-mentioned object, the method for transferring a macrostructure of a cross section of a metal test piece of the present invention first applies a corrosive liquid to the cross section of the metal test piece, and then transfers the macrostructure depending on the corrosion state to the cross section. The method is characterized in that the adhesive surface of the transparent adhesive tape is applied by pressing, and then, after the tape is peeled off, the adhesive surface of the tape is applied to a mount.

[For production]

In the above-described method for transferring a macrostructure of a cross section of a metal test piece of the present invention, metal oxides on the surface layer of a cross section of a metal test piece caused by corrosion adhere to the adhesive by pressing the transparent adhesive tape onto the surface, and the transparent adhesive tape When it is peeled off from the surface of the test piece, it is transferred to the tape side. By applying the tape to the mount, the metal oxide sample is fixed together with the adhesive between the tape and the mount.

[Example] Next, to explain an example of the present invention, FIGS. 1 to 3 show a method for transferring a cross-sectional macrostructure of a metal test piece as an example of the present invention, and FIG. FIG. 2 is a perspective view showing the transparent adhesive tape attached, FIG. 2 is a plan view when the sample is attached to the mount, and FIG. 3 is a cross-sectional view.

As shown in FIG. 1, when collecting the macrostructure 2' of a metal test piece l whose surface area has been corroded by applying a corrosive solution using an acid to the cross section 2, the metal test piece l
A transparent adhesive tape 3 is placed on the cross section 2 with the adhesive layer 3' facing the macrostructure 2', and then the transparent adhesive tape 3 is pressed onto the cross section 2 with a finger or the like. Then, the metal oxide sample generated on the surface layer of the cross section 2 adheres to the adhesive layer 3' of the transparent adhesive tape 3.

Therefore, once the sample has sufficiently adhered to the transparent adhesive tape 3, the transparent adhesive tape 3 is peeled off from the cross section 2 of the metal test piece l.

Then, the macrostructure 2' attached to the adhesive layer 3' of the transparent adhesive tape 3 is transferred from the cross section 2 to the transparent adhesive tape 3 while remaining adhered to the adhesive layer 3'.

Next, remove the peeled transparent adhesive tape 3 from its adhesive layer 3'.
When pasted on the mount 4 so that it faces the mount 4,
As shown in FIG. 2, the macrostructure 2' as a metal oxide sample is completely fixed together with the adhesive layer 3' between the transparent adhesive tape 3 and the mount 4 as shown in FIG. .

In this way, the macrostructure 2' can be easily transferred to the mount 4.
However, unlike conventional photographs or sketches, the macrostructure 2' collected in this way is a real sample, so it provides accurate data that can be used for subsequent examinations. You get it.

Further, the transcription material created in this manner can withstand storage for a sufficient period of time, but if a longer period of storage is required, it may be copied using a copying machine or the like and stored.

It should be noted that the transparent adhesive tape used in the method for transferring the macrostructure of a cross section of a metal test piece of the present invention is preferably one using a tape base material that has little expansion and contraction due to heat and an adhesive that has little deterioration over time. It is fully practical and may be semi-transparent.

〔Effect of the invention〕

As detailed above, according to the method for transferring the macrostructure of a cross section of a metal test piece of the present invention, no special experience or skills are required to create a preservation sample, and the actual material can be transferred and preserved as is. Not only does this have the excellent effect of making it possible to do this, but it also has the advantage of being simple and inexpensive since no special materials are required.

[Brief explanation of the drawing]

Figures 1 to 3 show a method for transferring the macrostructure of a cross section of a metal test piece as an embodiment of the present invention. FIG. 3 is a plan view and a cross-sectional view when it is attached to a mount. 1...Metal test piece, 2...Cross section, 2'...Macro structure,
3...Transparent adhesive tape, 3'...Adhesive layer, 4...Paper. Agent Patent Attorney Yoshihiko Iinuma Figure 1 Figure 2 Figure 3

Claims (1)

[Claims] After applying a corrosive liquid to the cross section of a metal test piece, when transferring the macrostructure due to the corroded state, first apply the adhesive side of a transparent adhesive tape to the cross section by pressing it, then peel off the tape. , a method for transferring a cross-sectional macrostructure of a metal specimen, the method comprising applying the adhesive surface of the tape to a mount.