KR20090049503A - Standard indentation sample for calibration of brinell hardness indentation measuring instrument - Google Patents

Abstract

The present invention relates to a calibration standard specimen for calibrating a Brinell hardness indentation measuring instrument, and more specifically, to provide a standard specimen formed with a certain size indentation Brinell hardness indentation based on the average diameter of the indentation formed on the standard specimen The present invention relates to a standard specimen for calibrating Brinell hardness indentation measuring instruments that can improve the reliability of Brinell hardness measurement by calibrating the measuring instrument.

Brinell Hardness, Instrument, Indentation, Average Diameter, Specimen, Calibration

Description

Standard Indentation Sample for Calibration of Brinell Hardness Indentation Measuring Instrument}

The present invention relates to a calibration standard specimen for calibrating a Brinell hardness indentation measuring instrument, and more specifically, to provide a standard specimen formed with a certain size indentation Brinell hardness indentation based on the average diameter of the indentation formed on the standard specimen The present invention relates to a standard specimen for calibrating Brinell hardness indentation measuring instruments that can improve the reliability of Brinell hardness measurement by calibrating the measuring instrument.

The principle of Brinell's hardness is to measure the average diameter of the indentation (a permanently pressed mark by the presser) left on the surface of the specimen after pressing the surface of the specimen with a certain amount of force. In other words, the hardness test method is to use the phenomenon that the indentation is large in the case of a soft material and the indentation is small in the case of a hard material when a deformation is applied to a material by applying a force to the presser.

Figure 1 shows a schematic of the Brinell hardness test principle.

Referring to FIG. 1, the calculation formula of Brinell hardness according to Brinell hardness test is shown in Equation 1 below.

In Equation 1, F is the test load applied when pressing the test piece with the tap, D is the diameter of the spherical tap, and d is the average diameter of the indentation permanently remaining on the surface of the test piece, d = (d ₁ + d ₂ ) / 2. .

Since F and D are factors that are already determined according to the accuracy class of the tester, it is not only possible to predict the influence on the hardness but also to control them, but in the case of d, the hardness tester determines the amount of indentation. It can vary greatly depending on skill level, measuring procedure, selection and setting method of measuring instrument used for indentation measurement. Therefore, no matter how good the performance of the tester, the accuracy of the measurement results depends on the indentation measurement.

For accurate indentation measurement, the instrument used for the first indentation measurement must be well calibrated. The reference equipment used to calibrate the indentation measuring instrument is represented by a standard person. However, if the calibration is performed using a standard, it is impossible to correct the distortion of the indentation due to the change in the condition of the instrument such as the brightness and the focus of the instrument when measuring the actual indentation. have.

The indentation measuring instrument for measuring Brinell hardness causes a system error when the object to be measured is changed. We want to eliminate the previous systematic error that occurs.

The present invention relates to a standard specimen for calibrating a Brinell hardness indentation measuring instrument, characterized in that a plurality of Brinell standard indents having different indent diameters are formed on the surface of the Brinell hardness indentation measuring instrument.

In the present invention, in order to provide information on the average diameter of the plurality of Brinell standard indentations, the standard specimen may be marked with an identifier for specifying each of the Brinell standard indentations.

In the present invention, the mirror surface of the surface of the standard specimen in which the Brinell standard indentations are formed is 0.1 μm Ra to 0.3 μm Ra, or the diameter of each brinell standard indentation is 2.0 mm to 6.0 mm, or Hardness is also 170 HB ~ 550 HB.

The indentation measuring instrument for measuring Brinell hardness causes a system error when an object to be measured is changed. In the present invention, when the indentation measuring instrument is calibrated, the same object as the indentation measuring object for measuring Brinell hardness is used instead of a standard. By using calibration standard specimens, the conventional system error can be eliminated.

In addition, the standard specimen for calibration according to the present invention provides a Brinell standard indentation that has an ideal shape while the average diameter is within the range of 2.0 mm to 6.0 mm, making it easy to make comparative measurements between the measurements, thereby making it easier to measure deviations. In addition, if the hardness value is inconsistent, it can be useful for cause analysis.

In addition, the calibration standard specimen according to the present invention can be usefully used to set the indentation measuring instrument for the Brinell hardness measurement to the optimum state, and also useful for maintaining the calibration and accuracy of the indentation automatic measuring instrument that is recently spreading in recent years Can be used.

Hereinafter, with reference to the drawings will be described in detail an embodiment of the present invention. Figure 2 is a perspective view of one embodiment according to the present invention, Figure 3 is a perspective view of a Brinell hardness measurement specimen in which the Brinell standard indentation of Figure 2 is formed, Figure 4 is an identifier and Brinell standard indentation observed in the Brinell hardness indentation measuring instrument 5 shows a comparison of the relative deviation of the indentation measurements formed on the specimens with and without the standard specimen of FIG. 2.

2 and 3, the above-described embodiment has a Brinell hardness test specimen 110. Brinell hardness test piece 110 may be made of carbon steel, brass, copper, aluminum or other materials. Brinell hardness test piece 110 is manufactured through a quenching, tempering, lapping (Popping, Polishing) process. The hardness of Brinell hardness test specimen 110 is 170 HB ~ 550 HB Can be. Among the Brinell hardness measurement specimens 110, the surfaces on which the Brinell standard indentations 121, 122, and 123, which will be described later, are formed, may be trimmed so that the mirror surface is 0.1 µm Ra to 0.3 µm Ra. Brinell hardness measurement specimen 110 may be manufactured in a square shape of 65mm diameter, 15mm thickness and one side 30mm. That is, it is preferable that the Brinell hardness measurement specimen 110 used in the above-described embodiment 100 has the same material and the same trimmed surface as the actual specimen used in the Brinell hardness measurement test. This is to prevent the conventional system error.

Referring to FIG. 2, a plurality of Brinell standard indentations 121, 122, and 123 are formed on the top surface of the Brinell hardness measurement specimen 110 which is polished to have a surface of 0.1 μm Ra to 0.3 μm Ra. The plurality of Brinell standard indentations 121, 122, 123 are formed such that their average diameters are different from each other. The average diameter of each Brinell standard indentation (121, 122, 123) depends on the diameter of the spherical indentation of the Brinell hardness tester (not shown). , 123) is preferably 2.0 mm to 6.0 mm. This is because the diameter in the test for the actual Brinell hardness measurement 2mm to 10mm This is because the average diameter of the Brinell indentations formed on the specimens is approximately 2.0 mm to 6.0 mm when a spherical nipple is used. That is, the average diameter of the Brinell standard indentations 121, 122, 123 of the above-described embodiment 100 is preferably to have a size corresponding to the average diameter size of the indentation actually measured. This is to prevent the conventional system error.

 Referring to FIG. 2, the Brinell hardness test specimen 110 is marked with the identifiers 121-1, 122-1, and 123-1 for specifying the respective Brinell standard indentations 121, 122, and 123. The identifiers 121-1, 122-1, and 123-1 may be Arabic numerals or other characters, symbols, or the like. In Fig. 2, identifiers 121-1, 122-1, and 123-1 are Arabic numerals, 1 designates a Brinell standard indentation of reference numeral 121, 2 designates a Brinell standard indentation of reference numeral 122, and 3 It is shown that the Brinell standard indentation of reference numeral 123 is specified. In this case, the average diameter of the Brinell standard indentation 121 specified by the Libyan number 1, the average diameter of the Brinell standard indentation 122 specified by the Libyan number 2, and the Brinell standard indentation specified by the Libyan number 3 ( Values for the average diameter of 123) shall be given when providing a standard specimen for calibration. Therefore, the experimenter measured the Brinell standard indentation (121, 122, 123) formed on the calibration standard specimen 100 according to the above-described embodiment by measuring the Brinell standard indentation of reference numeral 121 while measuring the Brinell hardness indentation measuring instrument When the calibration standard specimen 100 is provided, the Brinell hardness indentation measuring instrument is calibrated so that a value equal to the size of the Brinell standard indentation 121-1 corresponding to the given Arabic numeral 1 is measured. Subsequently, repeating the same process for the Brinell standard indentations of FIGS. 122 and 123 formed on the calibration standard specimen 100 according to the above embodiment, calibrating the Brinell hardness indentation measuring instrument prevents the occurrence of a conventional system error. You can do it.

In the above-described embodiment, the identifiers 121-1, 122-1, and 123-1 may include average diameter values of the Brinell standard indentations 121, 122, and 123.

On the other hand, when measuring the average diameter of the indentation including the Brinell standard indentations (121, 122, 123), it is preferable to measure the indentation in the 70% range of the microscope field of view, referring to Figure 4 individual Brinell standard indentations (121, 122, 123) identifiers 121-1, 122-1, and 123-1 enter the remaining 30% of the field of view of the microscope, allowing the investigator to observe which Brinell standard indentation is being measured through the microscope. Can be.

Referring to FIG. 5, the case in which the Brinell hardness indentation measuring instrument is calibrated using the calibration standard specimen 100 according to the above embodiment is formed in the specimen as compared to the case in which the Brinell hardness indentation measuring instrument is calibrated using a standard. It can be seen that the relative deviation is small when measuring the diameter of the indentation.

1 is a schematic diagram of Brinell hardness test principle.

Figure 2 is a perspective view of one embodiment according to the present invention.

3 is a perspective view of a Brinell hardness measurement specimen in which the Brinell standard indentation of FIG. 2 is formed;

4 is a schematic plan view of an identifier and a Brinell standard indentation observed in a Brinell hardness indentation measuring instrument.

FIG. 5 is a comparison of relative deviations of indentation measurements formed on specimens with and without the standard specimen of FIG. 2. FIG.

<Description of the symbols for the main parts of the drawings>

100: calibration standard specimen 110: Brinell hardness test specimen

121, 122, 123: Brinell standard indentation 121-1, 122-1, 123-1: Identifier

Claims (5)

A standard specimen for calibrating a Brinell hardness indentation instrument, wherein a plurality of Brinell standard indents having different indent diameters are formed on the surface of the Brinell hardness indentation instrument. The method of claim 1, The standard specimen is a standard specimen for calibrating a Brinell hardness indentation measuring instrument, characterized in that the identifier for specifying each of the Brinell standard indentation is provided to provide information on the diameter of the plurality of Brinell standard indentation. The method of claim 2, A standard specimen for calibrating a Brinell hardness indentation measuring instrument, characterized in that the mirror surface of the surface of the Brinell standard indentation surface of the standard specimen is 0.1 ㎛ Ra ~ 0.3 ㎛ Ra. The method of claim 3, A standard specimen for calibrating Brinell hardness indentation measuring instrument, characterized in that the diameter of each Brinell standard indentation is 2.0 mm to 6.0 mm. The method according to claim 3 or 4, Hardness of the standard specimen is a standard specimen for calibration Brinell hardness indentation measuring instrument, characterized in that 170 HB ~ 550 HB.

Images