KR102031412B1 - Material testing apparatus and Method for testing material using the same - Google Patents

Abstract

The present invention relates to a property test apparatus and a property test method using the same.
Physical property test apparatus according to an embodiment of the present invention includes an immersion chamber for receiving a fluid, having a discharge hole and the test object is immersed; and a load applying member for applying a tensile force to the object from the outside of the immersion chamber; And a sealing unit that closes the discharge hole of the immersion chamber to block the leakage of fluid from the immersion chamber, wherein the sealing unit is inserted into the discharge hole of the immersion chamber to insert the fluid in the immersion chamber. Is immersed in, inside the leakage preventing member through which the object passes; And a height change member provided inside the leak-proof member to be in close contact with the object, wherein the object has a plurality of strands in the form of a plurality of strands, and a plurality of gaps are formed between the strands. As it is tensioned, the fluid contained in the immersion chamber may be sealed by filling the gap in the leak preventing member.

Description

Physical testing apparatus and method for testing physical properties using same {Material testing apparatus and Method for testing material using the same}

The present invention relates to a property test apparatus and a property test method using the same.

Concrete is a structural material that is vulnerable to tension, and strands can be used together to reinforce the tensile strength of such concrete.

By the way, the strand is a member in which a very large tensile stress is applied may be rapidly brittle fracture when the strand is damaged physically or chemically.

In particular, since stranded strands can be delayed by stress corrosion and fractures due to corrosion, it is necessary to secure the quality of stranded strands and certify products by evaluating the stress corrosion performance of stranded strands.

The stress corrosion test of the strand can be performed with the corrosion test apparatus 10, as shown in FIG. The stranded wire 11 penetrates the corroded tank 12 containing the corrosive solution to expose the immersion region 11a of the stranded wire 11 to the corrosive solution. It is a test that exposes them to load and corrosion.

However, in performing such a test, since the corrosion solution should not leak inside the corroding tank 12, the sealing wire 13 is inserted into the hole of the corroding tank into which the stranded wire 11 is drawn in and drawn out, and the stranded wire 11 is sealed. The method of pulling out to the outside of the corroding tank 12 through the hollow part (not shown) of the cap 13 is used.

This is because the amount of the corrosion solution should not change during the stress corrosion test of the strands, and whether the strands leak will directly affect the reliability of the test results.

Therefore, it can be said that it is very important to seal the corrosion tank so that the corrosion solution does not leak to the outside.

KR 10-2004-0110740 A (2004.12.31)

An object of the present invention is to improve the reliability of the physical property test results of the object to be grasped.

Moreover, it aims at preventing the damage of a physical property test apparatus and improving the safety of a test.

The present invention relates to a property test apparatus and a property test method using the same.

Physical property test apparatus according to an embodiment of the present invention includes an immersion chamber for receiving a fluid, having a discharge hole and the test object is immersed; and a load applying member for applying a tensile force to the object from the outside of the immersion chamber; And a sealing unit that closes the discharge hole of the immersion chamber to block the leakage of fluid from the immersion chamber, wherein the sealing unit is inserted into the discharge hole of the immersion chamber to insert the fluid in the immersion chamber. Is immersed in, inside the leakage preventing member through which the object passes; And a height change member provided inside the leak-proof member to be in close contact with the object, wherein the object has a plurality of strands in the form of a plurality of strands, and a plurality of gaps are formed between the strands. As it is tensioned, the fluid contained in the immersion chamber may be sealed by filling the gap in the leak preventing member.

Preferably, the load applying member applies a tension force to tension the object in the longitudinal direction of the object, and the leakage preventing member has a clamping space for closing the discharge hole and accommodating the object, the height The change member may be provided to be in close contact with the outer circumference of the object in the clamping space of the leak-proof member, and to change the height in the clamping space so as to correspond to the diameter change according to the tension of the object.

More preferably, the height change member, may be provided with a material containing silicon (silicon).

More preferably, the leakage preventing member has an upper hole formed in the upper portion and a lower hole formed in the lower portion, the sleeve member is inserted into the upper hole and the lower hole of the leakage preventing member; may further include a have.

More preferably, the sleeve member has a hollow portion into which the object is inserted, and a body portion inserted into the upper hole and the lower hole of the leakage preventing member; And a head part connected to the body part and present outside the upper hole and the lower hole of the leakage preventing member, wherein the body part may include a blocking ring.

More preferably, the fluid is a corrosion solution, the object may be formed by a plurality of strands in close contact.

On the other hand the present invention is a method for testing the physical properties of the test object with the physical property test device, the first step of filling the clamping space of the leak-proof member with the height change member; and, the A test second step of introducing the object into an upper hole and discharging the object to the lower hole; and a third step of reducing the diameter of the object by tensioning the object with the load applying member for a predetermined time; And a fourth step for removing a tensile force applied to the object.

Preferably, the first test step fills the clamping space with a height change member made of a silicon-containing material, and the test fourth step removes the tensile force applied to the object, and then removes the height change member for a predetermined time. Hardening step; may include.

The present invention has the effect of improving the reliability of the physical property test results, can contribute to the improvement of the quality of the final product.

In addition, there is an effect of extending the life of the device, and prevent the occurrence of a safety accident in advance.

Figure 1 schematically shows a conventional corrosion test apparatus.
2 is a partial perspective view of the strand.
3 is a side view of FIG. 2.
Figure 4 schematically shows a physical property test apparatus according to the present invention.
Figure 5 schematically shows a leak-proof member according to the present invention.
Figure 6 schematically shows a state in which the strand is fitted in the leak-proof member according to the present invention.
7 is a schematic cross-sectional view of the leakage preventing member fitted with the strand.
8 shows a state in which a load is applied to the strand.
9 illustrates a state in which the load applied to the stranded wire is removed.
10 schematically illustrates a leak preventing member according to another embodiment of the present invention.
11 is a conceptual diagram of a property test method according to the present invention.

In order to help the understanding of the description of the embodiments of the present invention, the elements described with the same reference numerals in the accompanying drawings are the same elements, and the related elements among the components that will act the same in each embodiment may be represented by the same or extended numbers. Notation.

Further, in order to clarify the gist of the present invention, a description of elements and techniques well known by the prior art will be omitted, and hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

However, the spirit of the present invention is not limited to the embodiments presented, and may be proposed in other forms in which specific elements are added, changed, or deleted by those skilled in the art, but are also included within the scope of the same spirit as the present invention. Leave it on.

First, as shown in FIG. 2 and FIG. 3, the normal strand 11 refers to a bundle of a plurality of strands rather than one strand.

Therefore, a plurality of gaps 11b are present in the bundle type strands 11 formed by twisting a plurality of circular strands.

The strands mentioned below refer to a bundle of strands formed by twisting a plurality of strands, and a plurality of gaps may exist in such strands.

In addition, the present invention may be a device for performing a physical property test, in particular, a stress corrosion test of the test object, the strand described below means a test object of the stress corrosion test, the fluid means a corrosion solution.

4 is a physical property test apparatus according to a preferred embodiment of the present invention.

The physical property test apparatus according to the present invention includes a immersion chamber 110 having a fluid, a discharge hole, and the strand wire 1 is immersed, and a load applying member for applying a tensile force to the strand wire 1 from the outside of the immersion chamber ( 120 and a sealing unit 130 provided in the discharge hole of the immersion chamber 110 to close the discharge hole and block leakage of the fluid in the immersion chamber 110 to the outside of the immersion chamber 110. ) May be included.

At this time, the discharge hole of the immersion chamber 110 may be provided in the upper and lower portions of the immersion chamber 110, the strand 1 is introduced into the upper discharge hole (not shown) of the immersion chamber 110 is lower It can flow out of the discharge hole.

However, FIG. 4 schematically shows only the lower part of the immersion chamber 110, and the upper part of the immersion chamber 110 may also be provided as shown in FIG. 4, and the strand 1 is applied to the upper and lower parts. It may be tensioned in the longitudinal direction by the member 120.

In addition, the sealing unit 130 according to the present invention is present in both the upper discharge hole (not shown) and the lower discharge hole of the immersion chamber 110 to seal the immersion chamber 110, the fluid inside the immersion chamber 110 Has the effect of preventing leakage to the outside.

Sealing unit 130 is provided in the leak-proof member 131 and the leak-proof member 131 inserted into the discharge hole of the immersion chamber 110, the height change member in close contact with the outer circumference of the strand (1) ( 132).

The leakage preventing member 131 may be inserted into and inserted into the upper discharge hole (not shown) and the lower discharge hole of the immersion chamber 110, and the outer diameter thereof may have an interference fit or intermediate fit tolerance with the inner diameter of the discharge hole. It may be provided. However, this is not necessarily limited by the present invention, and is a matter that can be appropriately applied within a range to prevent the fluid inside the immersion chamber 110 from leaking to the outside.

5 shows a leak preventing member 131 according to a preferred embodiment of the present invention.

The leakage preventing member 131 has a clamping space 133 therein, and a stranded wire (1 in FIG. 4) may exist in the clamping space 133. In addition, an upper hole 134 may be present at an upper portion of the leakage preventing member 131, and a lower hole 135 may be present at a lower portion thereof.

The upper hole 134 and the lower hole 135 may be a passage through which the stranded wire (1 in FIG. 4) is drawn in and out. It may be provided to have a tolerance of any one of interference fit, intermediate fit and loose fit, which may vary depending on the material of the strand, and is not necessarily limited to the present invention.

Leakage preventing member 131 is made of any one material of stainless steel, acrylic, PC (high strength acrylic), steel may be reinforced durability, weather resistance and the like, but this is not necessarily limited to the present invention.

The height change member 132 may be filled in the clamping space 133 of the leakage preventing member 131. In addition, the clamping space 133 may be in close contact with the outer circumference of the strand (1 in FIG. 4), and the height of the clamping space 133 may be changed.

At this time, as shown in Figures 4 and 5, the strand 1 is tensioned in the longitudinal direction by the load applying member 120, the diameter of the strand 1 can be reduced. In this case, the height change member 132 is provided to be in close contact with the outer periphery of the strand (1) while the height in the clamping space 133 of the leak-proof member 131 is increased or decreased.

Preferably, the height change member 132 may be made of a material containing silicon (silicon).

Since silicon is elastically recoverable, when the height changing member 132 is made of silicon or a material containing silicon, the height of the clamping space 133 may be changed through elastic recovery, and the diameter of the stranded wire 1 may be changed. There is an effect that can cope with.

In order to perform the stress corrosion test of the strand through the physical property test apparatus provided as described above, as shown in FIG. 5, silicon or silicon is included to fill about 80% of the clamping space 133 of the leakage preventing member 131. Put the height change member 132 made of a material. At this time, the height change member 132 is not completely solidified.

As shown in FIG. 6, the strand 1 is positioned in the clamping space 133. That is, the strand 1 may penetrate the height change member 132 and protrude out of the leak preventing member 131.

And the strand wire (1) protruding to the outside of the leak-proof member 131 may be tensioned in the longitudinal direction by the load applying member (120 of FIG. 4).

In this case, the load applying member (120 of FIG. 4) may tension the strand 1 before the yield strength of the strand, the time to apply the load may be until the height change member 132 is completely solidified. . It may be up to about 10 hours, but this time may vary depending on the content of silicon, the material of the strand, etc., but is not necessarily limited to the present invention.

After a certain time, as shown in FIGS. 7 and 8, the length of the strand 1 is increased by the tensile force, the diameter is relatively reduced, and the height change member 132 fills the gap 1a of the strand 1. . Therefore, the height of the height change member 132 in the clamping space 133 is lower than before the strand 1 is inserted. Then, the fluid in the immersion chamber (110 of FIG. 4) may be effectively prevented from leaking out through the gap 1a of the strand 1. Until this time, the height change member 132 is not completely solidified and is in a state capable of elastic recovery.

Subsequently, as shown in FIG. 9, the tensile force applied to the strand 1 is removed, and after a predetermined time, the diameter of the strand 1 is relatively increased with respect to the length, and as time passes, the height change member 132 is a strand. It is completely solidified with the gap of (1a of FIG. 7) filled up.

Then, even when the fluid is filled in the immersion chamber (110 of FIG. 4), the fluid may be prevented from leaking to the outside of the immersion chamber 110, and the reliability of the stress corrosion test result of the stranded wire is also improved.

Meanwhile, preferably, according to another embodiment of the present invention, as shown in FIGS. 5 and 10, the leakage preventing member 131 may include a sleeve member 136 inserted into the upper hole 134 and the lower hole 135. It may further include.

The sleeve member 136 has a hollow portion into which the strand is inserted and is connected to the body portion 136b and the body portion 136b inserted into the upper hole and the lower hole of the leakage preventing member to prevent the leakage of the member. It may include a head portion (136a) existing outside the upper hole and the lower hole.

In this case, a screw thread T may be provided on an outer circumference of the body portion 136b, and a screw groove corresponding to the screw thread T may be provided on an inner surface of the leak preventing member 131.

According to the sleeve member 136 provided as described above, it is possible to more effectively prevent the fluid inside the immersion chamber (110 of FIG. 4) from leaking to the outside by increasing the sealing force.

More preferably, the lower end of the body portion (136b) may be fitted with a blocking ring 137, for this purpose, the lower end of the body portion may be formed concave to correspond to the outer circumference of the blocking ring (137). According to this, the sealing force of the sleeve member 136 can be further increased.

On the other hand, the present invention as another aspect provides a physical property test method.

In the physical property test method according to an exemplary embodiment of the present invention, as shown in FIG. 11, a first step (S210) of filling the clamping space of the leak preventing member with the height change member is performed to the upper hole of the leak preventing member. A test second step (S220) of introducing a stranded wire to discharge the stranded wire into the lower hole, a third test step (S230) of reducing the diameter of the stranded wire by stretching the stranded wire with the load applying member for a predetermined time; It may include a test step (S240) for removing the tensile force applied to the strand.

At this time, the test step (S210) fills the clamping space with a height changing member made of silicon or silicon, and the test step (S240) removes the tensile force applied to the strand, It may include a hardening step (S241) for hardening the height change member for a time.

However, the time at which each step is executed may vary depending on the material of the strand and the height changing member, the temperature and humidity of the environment in which the test is performed, and is determined based on the published standard properties of the material constituting the strand and the height changing member. Can be.

The matters described above have been described with respect to an embodiment of the present invention, and the scope of the present invention is not limited thereto, and various modifications and variations can be made without departing from the technical spirit of the present invention described in the claims. It will be apparent to one of ordinary skill in the art.

1: stranded wire 10: corrosion test equipment
11: stranded steel 12: corroding tank
13 sealing cap 14 load device
110: immersion chamber 120: load application member
130: sealing unit 131: leakage preventing member
132: height change member 133: clamping space
134: upper hole 135: lower hole
136: sleeve member 136a: head
136b: body 137: blocking ring

Claims (8)

An immersion chamber which accommodates the fluid, has a discharge hole and is immersed in a test object;
A load applying member exerting a tensile force on the object outside the immersion chamber; And
And a sealing unit that closes the discharge hole of the immersion chamber and blocks the fluid from leaking from the immersion chamber.
The sealing unit,
A leakage preventing member inserted into the discharge hole of the immersion chamber to be immersed in the fluid in the immersion chamber, and through which the object passes; And
And a height change member provided inside the leakage preventing member to be in close contact with the object.
The object has a plurality of strands in the form of a plurality of gaps are formed between the strands,
The height changing member is a physical property test device for sealing the fluid contained in the immersion chamber by filling the gap in the interior of the leak-proof member as the object is tensioned.
The method of claim 1,
The load application member,
Applying a tensile force to tension the object in the longitudinal direction of the object,
The leak preventing member,
A clamping space for closing the discharge hole and accommodating the object,
The height change member,
And a close contact with the outer circumference of the object in the clamping space of the leakage preventing member, the height testing device being provided to change the height in the clamping space so as to correspond to the diameter change according to the tension of the object.
The method of claim 2,
The height change member,
Physical property test apparatus, characterized in that provided with a material containing silicon (silicon).
The method of claim 3,
The leak preventing member,
An upper hole formed in the upper portion and a lower hole formed in the lower portion,
And a sleeve member inserted into the upper hole and the lower hole of the leak preventing member.
The method of claim 4, wherein
The sleeve member,
A body portion having a hollow portion into which the object is inserted, and inserted into the upper hole and the lower hole of the leakage preventing member; And
And a head portion connected to the body portion and present outside the upper and lower holes of the leakage preventing member.
Physical test device, characterized in that the body portion is provided with a blocking ring.
The method of claim 4, wherein
The fluid is a corrosion solution,
The object is a physical property test device, characterized in that formed by a plurality of strands in close contact.
The method for testing the physical properties of the test object with the physical property test device of claim 6,
A first step of testing the clamping space of the leakage preventing member with the height changing member;
A test second step of introducing the object into the upper hole of the leakage preventing member and discharging the object into the lower hole;
A third step of reducing the diameter of the object by tensioning the object with the load applying member for a predetermined time; And
A fourth step of removing the tensile force applied to the object;
Physical property test method comprising a.
The method of claim 7, wherein
The first step of the test,
Filling the clamping space with a height change member made of a material containing silicon,
The fourth step of the test,
And a step of hardening the height change member for a predetermined time after removing the tensile force applied to the object.