KR20150119523A - Concrete tensile creep tester and it's method - Google Patents

Abstract

The purpose of the present invention is to provide an apparatus for testing concrete tensile creep and a method therefor measuring tensile concrete creep. To achieve the purpose, according to the present invention, the apparatus for testing concrete tensile creep comprises: a load balancing frame composed of a stseel rod and an upper support plate and the lower support plate; a specimen having a predetermined shape; and a load transition unit. Moreover, to achive the purpose, according to the present invention, the method for testing concrete tensile creep measures a tensile load and tensile strain applied to the specimen using the apparatus for testing concrete tensile creep.

Description

Technical Field [0001] The present invention relates to a concrete tensile creep tester,

The present invention relates to an apparatus and a method for testing tensile creep of concrete, in particular, a concrete specimen in which upper and lower connection portions are embedded at both ends, The present invention relates to a concrete tensile creep test apparatus and method for measuring a tensile creep phenomenon of a concrete by applying a constant force to a specimen through the tensile load attaching section by providing a tensile load attaching section on the load transfer section.

Generally, creep tests are conducted to reflect deformation due to the continuous load of a structure by predicting the deformation of the material in an environment where concrete products are used, thereby prolonging the life of the structure.

Concretes usually have a certain degree of elasticity, like many structural materials.

These materials have a characteristic that the deformation increases with time under continuous load. This is called a creep, and a tester for measuring the creep is called a creep tester.

The creep test aims to measure the creep stiffness of a material until its displacement converges at constant temperature, humidity and static loads.

In the concrete creep test method, it is prescribed that the test is carried out by setting the concrete as the specimen on the platen of the creep tester capable of pressing a certain load, and then loading the load within 40% of the specimen compressive strength.

The procedure of the conventional creep test method described above requires that the load applied to the specimen (concrete) be maintained during the test period, and the displacement of the specimen is measured using a measuring instrument according to the procedure.

Therefore, it is important for the load management during the creep test that the creep coefficient of the target concrete is determined according to the magnitude of the load placed within the elastic range and the load due to the load on the specimen set in the testing machine, The specimen shall be maintained at rated load.

However, in the conventional creep test, it is inconvenient to use a hydraulic jack and an air pressure pump to apply a load to a specimen, and to compensate the load by continuously checking the load during the test period and adjusting the insufficient load as much as the deformation of the specimen.

In addition, in the conventional creep test, when a plurality of creep testers are operated, the air compressor is operated in the same manner as the creep tester, which causes power waste.

That is, there is a problem in that a large amount of electric power is consumed by installing an air compressor in each creep tester because there is no device capable of controlling the air pressure supplied from the air compressor when performing different load test on each creep tester.

Patent Document 1: JP-A-10-2012-0032802 (Publication date 2012.04.06)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a specimen in which an upper connecting portion and a lower connecting portion are embedded at both ends, And a tensile load section is provided on the load transducing section to connect the transducing section and apply a predetermined constant force to the specimen through the tensile load applying section to measure the tensile concrete creep through the load cell of the load transducing section. The present invention is to provide a concrete tensile creep test apparatus and method capable of checking a load with a load, compensating for a deficient load as much as a deformation of a specimen, and reducing power consumption.

In order to accomplish the above object, a concrete tensile creep test apparatus according to the present invention comprises: a steel bar having a predetermined length and a plurality of diameters arranged vertically; an upper support plate fixed by a nut at an upper end and a lower end of the steel bar; A load balance frame comprising a support plate; A specimen fixedly disposed on the lower support plate and having a predetermined shape; A load transducer fixedly installed on the specimen, the load transducer comprising a load cell disposed at a lower portion and a spring fixedly installed at the load cell.

The tension load attaching portion is provided on the upper surface of the upper support plate. The tension load attaching portion includes a bearing, an eye bolt passing through the bearing and disposed on a lower surface of the upper support plate, and a nut coupled to a back surface of the eye bolt.

The specimen is composed of a mold made of a PVC material having a predetermined diameter and length, and concrete embedded and cured in the mold.

Wherein the lower connection portion is formed at a lower portion of the specimen, the lower connection portion includes a steel plate having a predetermined shape, a front end connection member provided on the steel plate by bolting, an elongated bolt fixedly installed through the steel plate, And a supporting cap to be fastened.

The upper connection part is provided on the upper part of the specimen. The upper connection part is composed of a steel plate having a predetermined shape, a front end connection member bolted on the steel plate, and a hook bolt fixedly installed through the steel plate.

In order to accomplish the above object, according to the present invention, there is provided a method for tensile creep test of concrete, comprising a steel bar having a predetermined length and a plurality of diameters vertically arranged thereon, And a lower support plate; A specimen fixedly disposed on the lower support plate and having a predetermined shape; A tensile test load is applied to the concrete tensile creep test apparatus using a concrete tensile creep test apparatus fixed on the specimen and composed of a load cell disposed at a lower portion and a load transitional portion composed of a spring fixedly installed on the load cell And the tensile load and the tensile strain applied to the specimen are measured through the load cell.

The tension load attaching portion is provided on the upper surface of the upper support plate. The tension load attaching portion includes a bearing, an eye bolt passing through the bearing and disposed on a lower surface of the upper support plate, and a nut coupled to a back surface of the eye bolt.

The specimen is composed of a mold made of a PVC material having a predetermined diameter and a length, and a concrete poured into the mold and cured.

Wherein the lower connection portion is formed at a lower portion of the specimen, the lower connection portion includes a steel plate having a predetermined shape, a front end connection member provided on the steel plate by bolting, an elongated bolt fixedly installed through the steel plate, And a supporting cap to be fastened.

The upper connection part is provided on the upper part of the specimen. The upper connection part is composed of a steel plate having a predetermined shape, a front end connection member bolted on the steel plate, and a hook bolt fixedly installed through the steel plate.

INDUSTRIAL APPLICABILITY As described above, the apparatus and method for testing tensile creep of concrete according to the present invention have the following effects.

First, according to the present invention, a specimen is manufactured in which the upper connection portion and the lower connection portion are embedded at both ends, the specimen is installed in the load balance frame, the load transfer portion is connected to the upper portion of the specimen, And a tensile force is applied to the specimen through the tensile load applying section to easily measure tensile concrete creep through the load cell of the load transfer section.

Second, the present invention can compensate the load by continuously checking the load during the test period, adjusting the deficient load as much as the deformation of the specimen, and reducing power consumption.

Third, the present invention is advantageous in that a shear connection member connected to a steel plate, a long bolt, a hook bolt and the like are tightened with bolts so that the steel plate can be removed after the end of the experiment.

1 is a perspective view showing a concrete tensile creep test apparatus according to the present invention,
FIG. 2 is a front view showing a concrete tensile creep test apparatus according to the present invention. FIG.
3 is a perspective view showing an exploded view of a concrete tensile creep test apparatus according to the present invention,
4 is a perspective view showing a load balance frame of a concrete tensile creep test apparatus according to the present invention,
5 is a perspective view showing a concrete specimen of a concrete tensile creep test apparatus according to the present invention,
6 is a perspective view showing a load transfer portion of a concrete tensile creep test apparatus according to the present invention,
7 is a perspective view showing a tension load part of a concrete tensile creep test apparatus according to the present invention,
8 is a perspective view showing a lower connection portion of a concrete tensile creep test apparatus according to the present invention,
FIG. 9 is a perspective view showing an upper joint portion of a concrete tensile creep test apparatus according to the present invention,
10 is an exemplary view showing a state in which a tensile load is applied to a concrete tensile creep test apparatus according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a concrete tensile creep test apparatus according to the present invention, FIG. 2 is a front view showing a concrete tensile creep test apparatus according to the present invention, and FIG. 3 is a cross sectional view of a concrete tensile creep test apparatus according to the present invention FIG.

As shown in these drawings, a concrete tensile creep test apparatus A according to the present invention includes a steel bar 110 having a predetermined length and diameter and arranged in a plurality of vertical directions, A load balance frame 100 composed of an upper support plate 130 and a lower support plate 140 fixed by a nut 120; A specimen 200 fixedly disposed on the lower support plate 140 and having a predetermined shape; A load transducer 300 fixed on the specimen 200 and composed of a load cell 310 disposed at a lower portion and a spring 320 fixedly installed at the load cell 310.

That is, as shown in FIGS. 1 to 3, the apparatus for testing tensile creep of a concrete according to the present invention includes a load balancing frame 100, a specimen 200, and a load transducer 300, Device.

4, the three load balancing frames 100 are arranged so as to form 120 degrees and the upper supporting plate 130 is fixed to the upper end of the load balancing frame 100 with nuts 120, And a lower support plate 140 is fixedly installed to the lower end of the steel rod 110 via a nut 120.

That is, as the load transfer part 300 and the specimen 200 installed in the load balance frame 100 are finally coupled through the steel rod 110, the load action acts on the steel rod 110 inside the load balance frame 100, Respectively.

Here, it is preferable that the steel bar 100 is designed to have a sufficient cross-sectional area such that buckling does not occur in a tensile load at the time of testing.

Particularly, the upper support plate 130 and the lower support plate 140 have the same size and thickness, and the steel rods 110 are installed in three directions through the upper support plate 130 and the lower support plate 140, A hole 142 is formed at the center of the lower support plate 140 so that the elongated bolt 530 of the lower connection part 500 can pass therethrough.

A hinge condition is formed by connecting the long bolt 530 protruded to the lower end of the lower connection part 500 and the support cap 540 connecting the lower support plate 140 with the hole 142.

5, the specimen 200 is formed of a pipe-shaped mold 210 made of a PVC material, and a concrete (concrete) 220 having a constant strength is placed and cured in the mold 210, And is disposed between the upper support plate 130 and the lower support plate 140 of the load balancing frame 100.

6, the load transducer 300 includes a load cell 310 and a spring 320. A ring 312 is attached to both ends of the load cell 310, 312 is provided with a tension spring 320 at the upper part thereof.

In particular, it is revealed that the load cell 310 can measure the load in real time.

7, a tension load applying unit 400 is installed on the upper surface of the upper support plate 130. The tension load applying unit 400 includes a bearing 410 and a bearing 410, An eye bolt 420 disposed on the lower surface of the upper support plate 130 and a nut 430 coupled to a rear surface of the eye bolt 420.

8, a lower connection part 500 is provided below the specimen 200. The lower connection part 500 includes a steel plate 510 having a predetermined shape, And a support cap 540 which is fastened to the long bolt 530. The support bolt 530 is fixed to the steel bolt 530 and is fixed to the steel bolt 530.

Particularly, the lower connection part 500 is provided with an elongated bolt 530 for connecting the lower support plate 140. The support cap 540 is formed in a hemispherical shape with a threaded part and passes through the lower support plate 140 And is inserted into the long bolt 530.

The support cap 540 has a hemispherical shape having a diameter larger than that of the central hole of the lower support plate 140 and has a moment-free structure and exerts an axial force only on the specimen 200 in the vertical direction.

9, an upper connection part 600 is provided on the upper portion of the specimen 200. The upper connection part 600 includes a steel plate 610 having a predetermined shape, And a hook bolt 630 fixedly installed through the steel plate 610. The hook bolt 630 may be formed of a metal plate,

The upper bolt 630 is connected to the lower portion of the load cell 310 to be in a moment free state. The load bolt 630 is connected to the load cell 310, The point condition of receiving only the axial force becomes.

Hereinafter, a test method of a concrete tensile creep test apparatus according to the present invention having the above-described structure will be described.

10 is an exemplary view showing a state in which a tensile load is applied to a concrete tensile creep test apparatus according to the present invention.

As shown in this drawing, the method for tensile creep test of concrete according to the present invention comprises a steel bar 110 having a predetermined length and diameter and having a plurality of vertically arranged steel bars 110 and a nut 120 at the upper and lower ends of the steel bar 110 A load balance frame 100 comprising an upper support plate 130 and a lower support plate 140 which are fixedly installed by the support frame 130; A specimen 200 fixedly disposed on the lower support plate 140 and having a predetermined shape; And a load transfer part 300 fixedly installed on the specimen 200 and composed of a load cell 310 disposed at the lower part and a spring 320 fixedly installed at the load cell 310, A tensile load applying unit 400 is installed on an upper surface of the supporting member 400, and the tensile load applying unit 400 includes a bearing 410; An eye bolt 420 disposed on a lower surface of the upper support plate 130 through the bearing 410 and a nut 430 coupled to a rear surface of the eye bolt 420, A mold 210 made of a PVC material having a diameter and a length and a concrete 220 placed and cured in the mold 210. A lower connection part 500 is installed at a lower portion of the specimen 200 The lower connection unit 500 includes a steel plate 510 having a predetermined shape, a front end connection member 520 bolted to the steel plate 510, and a long bolt (not shown) fixedly installed through the steel plate 510 530 and a support cap 540 fastened to the long bolt 530. An upper connection part 600 is provided on the upper portion of the specimen 200. The upper connection part 600 has a predetermined shape A steel plate 610, a front end connection member 620 provided on the steel plate 610 by being bolted to the steel plate 610, A tensile test load is applied to the concrete tensile creep test apparatus A by using a concrete tensile creep test apparatus A composed of a fixed hook bolt 630 and a load test load is applied to the concrete tensile creep test apparatus A through the load cell 310 And the tensile load and tensile strain applied thereto are measured.

That is, the method for tensile creep test of concrete according to the present invention is a method for testing the tensile creep test of a concrete in a load balancing frame 100 composed of a steel rod 110, an upper support plate 130 and a lower support plate 140 of a concrete tensile creep test apparatus A, And a load transfer unit 300 including a spring 320 coupled to the load cell 310 is installed on the specimen 200. A thrust ball bearing 410 is mounted on the spring 320, And the upper connecting part 600 is attached to the upper part of the specimen 200 so that the upper connecting part 600 is inserted into the upper connecting part 600. [ A thrust ball bearing 410 is installed at the center of the upper support plate 130 in a state where the upper support plate 130 is fixed to the lower support plate 140 while the lower connection unit 500 is connected to the lower portion of the specimen 200. [ The thrust ball bearing 410, The eye bolt 420 connected to the spring 320 is lifted and the spring 410 is lifted by rotating the nut 430 of the tension load applying unit 400 with the eye bolt 420 and the nut 430, And a tensile force is applied to the specimen 200.

At this time, the thrust ball bearing 410 functions to smooth the axial rotation while receiving axial load.

When the eye bolt 420 is lifted, the spring 320 connected to the eye bolt 420 is stretched to apply tensile force to the specimen 200 connected to the spring 320. When the tensile load is applied The spring 320 can measure the tensile load in real time through the load cell 310 connected to the spring 320 and the spring 320 can be moved in the direction of 5 A tensile force of 1 to 1.5 tons is applied to the specimen 200 when it is stretched by 7 cm.

As the specimen 200 and the spring 320 are subjected to tensile force, the steel rod 110 of the load balancing frame 100 is finally subjected to compressive force.

Therefore, in the method of tensile creep test of concrete according to the present invention, a specimen 200 in which an upper connection part 600 and a lower connection part 500 are embedded at both ends is manufactured and the specimen 200 is installed in a load balance frame 100 A load transfer portion 300 is connected to an upper portion of the specimen 200 and a tensile load portion 400 is provided on the load transfer portion 300 so that the tensile load portion 400 It is possible to easily measure the tensile concrete creep through the load cell 310 of the load transducer 300 by applying a constant force to the specimen 200. [

Hereinafter, an experiment of a concrete tensile creep test apparatus according to the present invention will be described.

Tensile creep test tendency

As shown in Table 1, the tensile creep test of the concrete tensile creep test apparatus according to the present invention shows that age-dependent non-dynamic behavior is performed after elastic deformation under the initial tensile load.

Therefore, in the tensile creep test, the tensile force of the concrete is estimated to be about 1/10 to 1/13 of the compressive force.

Load of 30 ~ 50% of the maximum strength is loaded so that the specimen behaves in the elastic section.

The concrete used in construction is designed to have a strength of 21, 24 and 27 Mpa, and PS concrete is basically designed to have a strength of 40 Mpa.

Compressive strength
Tensile strength (1/12)

Elastic section (40%) Proper load
21

1.75
0.7
24

2
0.8
27

2.25
0.9
40

3.33
1.33

Tensile creep test Load weight calculation (MPa)

The preferred embodiments described in the specification of the present invention are intended to be illustrative, not limiting, and the scope of the present invention is indicated by the appended claims, and all modifications that come within the meaning of the claims are included in the present invention. .

100: load balancing frame 110: steel bar
120: nut 130: upper support plate
140: lower support plate 200: specimen
210: Mold 220: Concrete
300: load transfer unit 310: load cell
320: spring 400: tensile load attaching part
410: Bearing 420: Eye Bolt
430: nut 500: lower connection
510: steel plate 520: shear connector
530: Long bolt 540: Support cap
600: upper connection part 610: steel plate
620: Shear connector 630: Hook bolt
A: Concrete tensile creep test equipment

Claims (10)

A load balancing frame having a steel bar having a predetermined length and a plurality of diameters and arranged vertically and an upper support plate and a lower support plate which are fixedly installed at upper and lower ends of the steel bar with a nut; A specimen fixedly disposed on the lower support plate and having a predetermined shape; A load transducer fixedly installed on the specimen, the load transducer comprising a load cell disposed at a lower portion and a spring fixedly installed on the load cell. The method according to claim 1,
A tensile load attaching portion is provided on the upper surface of the upper support plate, the tension load attaching portion is composed of a bearing, an eye bolt passing through the bearing and disposed on a lower surface of the upper support plate, and a nut coupled to a back surface of the eye bolt Concrete tensile creep test equipment. The method according to claim 1,
Wherein the specimen comprises a mold made of a PVC material having a predetermined diameter and a length, and a concrete embedded and cured in the mold. The method according to claim 1 or 3,
Wherein the lower connection portion is formed at a lower portion of the specimen, the lower connection portion includes a steel plate having a predetermined shape, a front end connection member provided on the steel plate by bolting, an elongated bolt fixedly installed through the steel plate, And a support cap to be fastened. The method according to claim 1 or 3,
Wherein the upper connection part is provided on the upper part of the specimen, the upper connection part is composed of a steel plate having a predetermined shape, a shear connection member provided on the steel plate by bolting, and a hook bolt fixedly installed through the steel plate Concrete tensile creep test equipment. A load balancing frame comprising a steel bar having a predetermined length and a plurality of diameters and arranged vertically, an upper support plate fixed to the upper and lower ends of the steel bar by a nut, and a lower support plate; A specimen fixedly disposed on the lower support plate and having a predetermined shape; A tensile test load is applied to the concrete tensile creep test apparatus using a concrete tensile creep test apparatus fixed on the specimen and composed of a load cell disposed at a lower portion and a load transitional portion composed of a spring fixedly installed on the load cell And measuring a tensile load and a tensile strain applied to the specimen through the load cell. The method according to claim 6,
A tensile load attaching portion is provided on the upper surface of the upper support plate, the tension load attaching portion is composed of a bearing, an eye bolt passing through the bearing and disposed on a lower surface of the upper support plate, and a nut coupled to a back surface of the eye bolt Test method for tensile creep of concrete. The method according to claim 6,
Wherein the specimen comprises a mold made of a PVC material having a predetermined diameter and a length, and a concrete poured into the mold and cured. 9. The method according to claim 6 or 8,
Wherein the lower connection portion is formed at a lower portion of the specimen, the lower connection portion includes a steel plate having a predetermined shape, a front end connection member provided on the steel plate by bolting, an elongated bolt fixedly installed through the steel plate, And a support cap to be fastened. 9. The method according to claim 6 or 8,
Wherein the upper connection part is provided on the upper part of the specimen, the upper connection part is composed of a steel plate having a predetermined shape, a shear connection member provided on the steel plate by bolting, and a hook bolt fixedly installed through the steel plate Test method for tensile creep of concrete.

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