KR101417609B1 - Centering unit and fracture toughness testing apparatus having thereof - Google Patents

Abstract

A centering unit according to an embodiment of the present invention may include an insertion unit providing a positioning reference by being inserted into a notch unit and a length adjustment unit connected to the insertion unit to adjust the centering position of a test piece, in which the notch unit is formed, for fracture toughness. Also, a fracture toughness test device according to the other embodiment of the present invention may include the centering unit, a measurement unit provided on one side of the test piece, and a support unit with a roller unit supporting the test piece.

Description

Technical Field [0001] The present invention relates to a centering unit and a fracture toughness testing apparatus including the centering unit,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a centering unit and a fracture toughness testing apparatus including the centering unit, and more particularly to a centering unit for adjusting a centering position of a test piece based on a notch formed on the test piece.

Fracture Toughness is a fracture mechanics factor and is a material-specific property that indicates the degree of resistance that can withstand loads externally applied. In general, since the actual strength of a material is weak compared to the theoretical strength, measuring the fracture toughness of a material is very important in structural analysis and life analysis.

As an example for measuring the fracture toughness, there may be a CTOD (Crack Tip Opening Displacement test) of the base material and the welded portion.

That is, in order to reproduce the environment of the steel material, in the range from room temperature to -196 ° C., the chamber is filled with ethyl alcohol and isopentane liquid from 0 to -120 ° C., And a fracture test was carried out.

At this time, the test piece is subjected to a centering operation. In this centering operation, the operator adjusts the test piece with the naked eye.

Such a visual centering operation has a problem of delaying the time for centering the test piece and making it difficult to maintain the low temperature atmosphere due to the delay of the centering operation time.

However, when the specimen can not be subjected to the liquid immersion test due to the circumstances of the test equipment, or when the test is a cryogenic test at -120 to -170 ° C, the specimen and the test fixture are installed in the cooling chamber, In this case, when the chamber door is opened for the continuous experiment, the mist is formed by the mixing of the low-temperature environment and the room-temperature air in the chamber, and the installation of the lighting device due to the extreme temperature difference It is difficult to observe the operator's visual observation, so that the centering of the test piece is not properly performed.

In other words, if the center of the specimen is not properly centered, it will cause a difference in the pressing force applied to break the specimen and cause cracks or fractures that deviate from the tip of the preformed notch at the center of the specimen. And the data reliability is seriously damaged.

On the other hand, when the test piece is broken, there is a problem that the gauge inserted into the notch portion of the test piece is damaged by the weight of the test piece.

Therefore, it is necessary to study a centering unit and a fracture toughness testing apparatus including the same in order to solve the above-mentioned problems.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a centering unit and a fracture toughness testing apparatus including the centering unit capable of adjusting a centering position based on a notch portion without depending on the naked eye of a worker for centering work of the test piece.

The centering unit according to an embodiment of the present invention includes an insertion unit inserted into the notch to provide a positioning reference to adjust the centering position of the test piece having the notch for measuring the fracture toughness, Section.

The length adjuster of the centering unit according to an embodiment of the present invention may include a link member connected to the inserting portion and a screw member provided in association with the link portion to adjust the length.

Further, the insertion portion of the centering unit according to an embodiment of the present invention may include a central member rotatably connected to the length adjusting portion, and an extending member provided to extend to both sides of the central member.

In addition, the extension member of the centering unit according to an embodiment of the present invention may be provided with a tapered edge portion in contact with the notch portion.

Further, the fracture toughness testing apparatus according to another embodiment of the present invention may include a centering unit, a measurement unit provided on one side of the test piece, and a support unit provided with a roller for supporting the test piece.

Further, the measuring unit of the fracture toughness testing apparatus according to another embodiment of the present invention may be provided on the lower side of the test piece, and the supporting unit may further provide a bottom base having a seating groove into which the measuring unit is inserted when the measuring unit is dropped .

The centering unit of the present invention and the fracture toughness testing apparatus including the centering unit of the present invention are advantageous in that the centering operation of the test piece having the notch portion is provided based on the notch portion so that the centering operation of the test piece can be performed quickly and accurately without visual observation and illumination.

In addition, by accelerating the centering operation, the temperature of the atmosphere in the chamber in which the test piece is provided can be kept constant, and the test cost can be prevented from rising due to re-cooling or reheating.

In addition, due to the improved accuracy of the test, the costs and manpower for further testing can be reduced, and an advantage of obtaining reliable test data can be obtained.

On the other hand, by providing a seating groove into which the measuring unit is inserted when falling, there is an advantage that breakage of the measuring unit can be prevented.

1 is a front view showing a fracture toughness testing apparatus of the present invention.
2 is an operational state diagram showing the fracture toughness testing apparatus of the present invention.
3 is a front view showing that the fracture toughness testing apparatus of the present invention is provided in a chamber.
FIG. 4A is a plan view showing a support unit provided by the fracture toughness testing apparatus of the present invention, and FIG. 4B is a front view showing an operation state of a support unit in which an insertion groove is formed.
5 is a front view showing a centering unit according to a first embodiment of the present invention.
6 is a plan view showing a centering unit according to a first embodiment of the present invention.
7 is a front view showing a second embodiment of the centering unit of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

The centering unit 100 and the fracture toughness testing apparatus 1 including the centering unit 100 of the present invention relate to an invention for adjusting the centering position of the test piece 2 based on the notch 2a formed in the test piece 2. [

That is to say, the centering operation of the test piece 2 on which the notch portion 2a is formed is provided on the basis of the notch portion 2a without depending on the naked eye of the operator so that the centering operation of the test piece 2 can be performed quickly and accurately will be.

In addition, by accelerating the centering operation, the temperature of the atmosphere in the chamber 3 in which the test piece 2 is provided can be kept constant, thereby preventing the test cost from rising due to re-cooling or reheating, It is possible to save costs and manpower for further testing and to obtain reliable test data.

More specifically, FIG. 1 is a front view showing a fracture toughness testing apparatus 1 of the present invention, FIG. 2 is an operating state view showing a fracture toughness testing apparatus of the present invention, and FIG. 3 is a fracture toughness testing apparatus 1) is provided in the chamber 3.

1 to 3, a fracture toughness testing apparatus 1 according to the present invention includes a centering unit 100, a measuring unit 200 provided on one side of the test piece 2, And a support unit 300 to which a roller portion 310 is provided.

The centering unit 100 serves to adjust the position of the test piece 2 so that the test piece 2 can be provided in the support unit 300 at a predetermined position. That is, as shown in FIG. 2, a centering operation can be performed by providing a reference for positioning by the inserting portion 110 inserted into the notch portion 2a. A detailed description thereof will be given later with reference to Figs. 5 to 7.

The measuring unit 200 may measure the degree of cracking or fracture of the test piece 2. For this purpose, the measuring unit 200 may be provided on one side of the test piece 2.

Particularly, it is preferable to be provided on the notched portion 2a of the test piece 2, which is a portion where cracking or breakage of the test piece 2 is expected. For example, in order for the measurement unit 200 to be provided in the notch portion 2a, a connection leg of the measurement unit 200 may be provided to be engageable with an engagement protrusion formed on the notch portion 2a.

The measurement unit 200 may be provided with an infrared sensor, a pressure sensor, a resistance sensor, or the like. If the measurement of the occurrence of cracks or fractures in the test piece 2 can provide data on the breaking strength, The measurement unit 200 of FIG.

The support unit 300 may support the test piece 2 and provide a pressing force to the test piece 2 so that the fracture toughness or breaking strength of the test piece 2 can be measured. To this end, the support unit 300 may provide a roller unit 310 and a lower base 320.

The roller unit 310 can directly press and support the test piece 2 while supporting the test piece 2 in direct contact. The roller unit 310 may provide a support roller 311 provided on the lower base 320 and a pressure roller 312 pressing the test piece 2 from above.

Particularly, the support roller 311 can facilitate the movement of the test piece 2 when the position of the test piece 2 is adjusted by the centering unit 100. That is, the support roller 311 may include a support body 311b fixed to the lower base 320 and a roller 311a rotatably provided on the support body 311b.

Meanwhile, the pressure roller 312 may be connected to a hydraulic or pneumatic piston to provide a pressing force to the test piece 2. That is, the piston connected to the control means C adjusts the pressing force to be applied to the test piece 2 and moves the pressing roller 312 up and down.

The lower base 320 supports the roller unit 310 and adjusts the interval of the roller unit 310. A seating groove 321 is formed to protect the measuring unit 200 . A detailed description thereof will be described later with reference to Figs. 4A and 4B.

The support unit 300 may further include a vertical adjustment unit 330 for vertically moving the lower base 320. That is, the up-down adjustment part 330 can adjust the vertical position of the test piece 2 by moving the lower base 320 up and down.

The upper and lower control part 330 may be provided with a screw rod on the lower side and may be provided to move up and down by rotation, or may be connected to a hydraulic or pneumatic piston, or may be connected to a driving motor to move up and down.

Further, the fracture toughness testing apparatus 1 may be provided in a chamber 3 which constitutes a low-temperature or high-temperature environment. This is to provide an environment similar to the environment in which the test piece 2 is used, so as to improve the reliability of the fracture toughness test data by the test piece 2.

To this end, the chamber 3 may be provided with a temperature sensor 3a for measuring the temperature and a refrigerant supply portion 3b for supplying the refrigerant. For example, the refrigerant may be supplied through a fan provided on one side of the chamber 3, or may be supplied with cooling gas. However, in order to create a low-temperature environment, when a high-temperature environment is to be created, a heating heater may be provided instead of the refrigerant supply unit 3b.

Specifically, in order to measure the fracture toughness of the test piece 2 used as the material of the outer body of the vessel under a low temperature environment, in order to maintain the atmosphere temperature in the chamber 3 at -60 to -160 캜, (3b) can inject the refrigerant. At this time, the temperature sensor 3a measures the temperature in the chamber 3 and provides data to the control means C, so that the control means C controls the amount of refrigerant to be injected by the refrigerant supply portion 3b So that the temperature in the chamber 3 can be adjusted.

FIG. 4A is a plan view showing a support unit 300 provided by the fracture toughness testing apparatus 1 of the present invention, and FIG. 4B is a front view showing an operating state of the support unit 300 having an insertion groove formed therein.

4A and 4B, the measuring unit 200 of the fracture toughness testing apparatus 1 according to the present invention is provided on the lower side of the test piece 2, and the supporting unit 300 includes the measuring unit 200 The bottom base 320 on which the seating groove 321 to be inserted is formed is provided.

Thereby, the falling measurement unit 200 can be inserted into the seating groove 321 to prevent the measurement unit 200 from being damaged.

That is, when the pressure roller 312 presses the test piece 2 and a crack occurs in the test piece 2, the measurement unit 200 provided below the test piece 2 presses the test piece 2 The test piece 2 is fractured as the pressing force by the pressure roller 312 is increased so that the measuring unit 200 attached to the test piece 2 .

Here, the measuring unit 200 to be dropped is inserted into a seating groove 321 formed in the lower base 320, thereby preventing collision with the falling test piece 2, thereby protecting the measuring unit 200 It will be possible to do.

The lower base 320 may be formed with a roller guide groove 322 through which the support roller 311 can move. That is, in order to adjust the width of the support roller 311, which is provided in plurality according to the size of the test piece 2 supported by the support roller 311, the width of the support roller 311 along the roller guide groove 322, 311) can be moved.

FIG. 5 is a front view showing a centering unit 100 according to a first embodiment of the present invention, and FIG. 6 is a plan view showing a centering unit 100 according to a first embodiment of the present invention.

5 and 6, the centering unit 100 according to the present invention is used to adjust the centering position of the test piece 2 formed with the notched portion 2a for measuring the fracture toughness, An insertion unit 110 for providing a position setting reference, and a length adjusting unit 120 connected to the insertion unit 110.

The length adjusting unit 120 of the centering unit 100 according to the present invention may further include a link member 121 connected to the insertion unit 110 and a screw member provided in association with the link unit, (Not shown).

The inserting portion 110 of the centering unit 100 according to the present invention includes a central member 111 rotatably connected to the length adjusting portion 120, And may include an elongate member 112.

The extension member 112 of the centering unit 100 according to the present invention may be provided with an edge portion 112a contacting with the notch portion 2a in a tapered shape.

That is, the centering unit 100 can adjust the position of the test piece 2 so that the test piece 2 can be provided at a predetermined position in the support unit 300. To this end, the centering unit 100 The insertion portion 110 and the length adjusting portion 120 can be provided.

The inserting portion 110 is provided to be inserted into the notch 2a formed in the test piece 2 so as to provide the same distance to the test piece 2. [

That is, in order to measure the fracture toughness, reliable test data are obtained by performing a number of tests on a plurality of test specimens 2 manufactured in the same manner. At this time, in the test specimen 2, notched portions 2a The inserting portion 110 connected to the length adjusting portion 120 to be described later is inserted into the notch portion 2a to provide a reference for setting the position.

To this end, the insertion portion 110 may provide a central member 111 and an extension member 112. That is, the center member 111 is a portion of the insertion unit 110 connected to the length adjusting unit 120, which will be described later, and the extending member 112 is a portion of the insertion member 110 extending to both sides of the center member 111, (110).

Particularly, the central member 111 is rotatably engaged with the length adjusting unit 120 so that even when one extension member 112 inserted into the notch 2a is cut off and removed, (112) can be rotated and provided to the notched portion (2a), so that the centering work for the fracture toughness test can be speeded up.

Further, the edge portion 112a of the extending member 112 is tapered so that it can be easily inserted into the notched portion 2a.

The length adjuster 120 adjusts the length of the insertion unit 110 so that the center of the test piece 2 can be centered when the insertion unit 110 provides a positioning reference. For this purpose, the length adjuster 120 may provide a link member 121 and a screw member 122.

The link member 121 is connected to the insertion unit 110 and the screw member 122 is provided to be capable of screwing with the link member 121 so that the screw member 122 can be stretched or contracted by rotation, do.

Meanwhile, the screw member 122 may be provided with a main block provided at the center to greatly vary the elongation or contraction distance, and also to provide a sub-block having a thread pitch interval smaller than that of the main block, .

The screw member 122 may be connected to the support unit 300. To this end, the screw member 122 may be provided with a slide bar 122b vertically extended from the screw member 122, May be movably inserted into a portion (122a) connected to the support unit (300).

Meanwhile, a stopper 122c may be connected to the opposite side of the slide bar 122b to which the screw member 122 is connected.

This is because the slider rod 122b is located on the inner side of the portion 122a connected to the supporting unit 300 so that the inserting portion 110 connected to the inserting portion 110 via the screw member 122 can approach the notch 2a So as to facilitate the operation of removing the insertion portion 110 from the notch portion 2a after completion of the centering operation.

That is, in order to remove the insertion portion 110 from the notch 2a, the slider rod 122b is moved to the outside of the portion 122a connected to the support unit 300. The stopper 122c Serves to prevent the slider rod 122b from completely separating from the portion 122a connected to the support unit 300. [

The operation of the centering unit 100 is performed by first inserting the inserting portion 110 into the notched portion 2a of the test piece 2 after the positionally adjusted test piece 2 is provided, Standards.

At this time, the insertion portion 110 moves toward the inside of the portion 122a connected to the support unit 300, and the slide bar 122b moves in the direction Z of the notch portion 2a. The screw member 122 is rotated in the upward direction Y about the slide bar 122b so that the insertion portion 110 can be inserted into the notch portion 2a.

When the insertion unit 110 provides a reference for positioning, the length adjusting unit 120 adjusts the length of the screw member 122 by rotating the screw member 122 in the axial direction X, The preparation for the work can be completed.

The test piece 2 is inserted into the notch portion 2a so that the insertion portion 110 having a fixed length in the axial direction X can be inserted into the notch portion 2a by the length adjusting portion 120, The centering operation of the test piece 2 can be performed by moving the support 2 on the support roller 311. [

On the other hand, the centering unit 100 having completed the centering operation can be moved downward due to its own weight, thereby preventing the pressurizing operation or the measuring operation for the fracture toughness test from being influenced.

7 is a front view illustrating a second embodiment of the centering unit 100 of the present invention. Referring to FIG. 7, the centering unit 100 may be replaced with the length adjusting unit 120 in place of the screw member 122 The piston member 123 can be provided.

That is, when the inserting portion 110 is inserted into the notched portion 2a to provide a reference for setting the position, the piston member 123 provided with hydraulic pressure or air pressure adjusts the length, The centering operation of the center of gravity can be performed.

1: Fracture Toughness Test Apparatus 2: Test Specimen
3: chamber 100: centering unit
110: insertion portion 111: central member
112: extension member 120:
121: link member 122: screw member
123: piston member 200: measuring unit
300: support unit 310: roller unit
311: Support roller 312: Pressure roller
320: bottom base 321: seat groove
322: roller guide groove 330:

Claims (6)

To adjust the centering position of the test piece having the notched portion for measuring the fracture toughness,
An insertion portion inserted into the notch portion to provide a positioning reference; And
A length adjusting unit connected to the inserting unit;
/ RTI >
The insertion portion
A central member rotatably connected to the length adjuster; And
An extension member extending from both sides of the central member;
. The method according to claim 1,
The length-
A link member connected to the insertion portion; And
A screw member provided in association with the link portion so as to be adjustable in length;
. delete The method according to claim 1,
Wherein the extending member is provided in a tapered shape with an edge portion in contact with the notch portion. The centering unit according to any one of claims 1, 2, and 4;
A measurement unit provided on one side of the test piece; And
A support unit provided with a roller portion for supporting the test piece;
And a fracture toughness test apparatus. A centering unit including an inserting portion inserted into the notch portion and providing a positioning reference, and a length adjusting portion connected to the inserting portion so as to adjust the centering position of the test piece having the notch portion for measuring the fracture toughness;
A measurement unit provided on one side of the test piece; And
A support unit provided with a roller portion for supporting the test piece;
/ RTI >
The measuring unit is provided on the lower side of the test piece,
Wherein the support unit comprises: a lower base having a seating groove into which the measurement unit is inserted when the measurement unit is dropped;
Wherein the fracture toughness test apparatus further provides a fracture toughness test apparatus.

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