KR19980083519A - Test Method for Direct Tension Bonding Strength of Filler between Precast Concrete Members - Google Patents

Abstract

According to the present invention, the connection between the precast concrete members and the narrow gaps between the members using appropriate fillers is sufficient to secure the attachment strength for showing adequate safety against external load in the integrated structure. It relates to a test method that can be rigorously evaluated, the front plate (4) is formed with a plurality of bolt mounting holes (3) in the square plate and the bar mounting hole (7) is formed in the center plate; An inner plate 5 having the same number of bolt mounting holes 3 as the front plate and having a bar mounting hole 7 formed in the center thereof; A bolt (1) installed at regular intervals through the bolt installation hole (3) formed in the front plate (4) and the inner plate (5) at the same time; A nut (2) fastened to the bolt (1); And a tension force transmission device and the tension force transmission device 50, characterized in that it consists of a tension force transmission bar 6 installed toward the front plate 4 from the inner plate 5 through the rod installation hole 7. Tensile force transmission device manufacturing step of manufacturing; A tensile test piece manufacturing step of manufacturing a tensile test piece 20 for direct tensile attachment strength test in which the tensile force transmission device 50 is fixed therein; And using a universal testing machine (15) provides a direct tensile adhesion strength test method of the precast concrete member filling material, characterized in that it comprises a test step of performing by performing a direct tensile strength test of the tensile test piece (20). do.

Description

Test Method for Direct Tension Bonding Strength of Filler between Precast Concrete Members

According to the present invention, the connection between the precast concrete members and the narrow gaps between the members using suitable fillers is used to secure the attachment strength necessary for showing the proper safety against external load in the integrated structure. It is about a test method that can be rigorously evaluated.

In a member having a joint, the joint is filled with a filling material. In this case, when evaluating the structural performance of the joint by horizontal shear and bending tests, rather than by direct tensile strength test, in order to evaluate the exact bond strength of the joint. There were a lot. However, members such as precast decks used in bridge decks are more frequently subjected to direct tension or flexural tension than shear and flexion because the connections are directly supported by molds. In addition, the bond strength test method, which reflects the complex behavior of structural systems, has not been proposed in the case of joining the narrow gaps between precast members with filling material, so that the exact resistance of the connection to the axial force cannot be evaluated. There was this.

The present invention has been made to solve the problems described above, and when the joint between the precast member and the member is joined using a filling material, it is possible to reasonably measure and evaluate the resistance to direct tension or bending tension applied externally. Its purpose is to provide a test method that can be used.

In order to achieve the above object, a plurality of bolt mounting holes are formed in a square plate, and a front plate having a bar installation hole formed in the center of the plate; An inner plate having the same number of bolt installation holes as the front plate, and having a steel bar installation hole in the center thereof; Bolts installed at regular intervals through the bolt mounting holes formed in the front plate and the inner plate at the same time; A nut fastened to the bolt; And a tensile force transmission bar that is installed toward the front plate from the inner plate through the steel rod mounting hole. And a tensile force transmission device manufacturing step of manufacturing the tensile force transmission device. A tensile test piece manufacturing step of manufacturing a tensile test piece for direct tensile adhesion strength test fixing the tensile force transmitting device therein; And using a universal testing machine provides a direct tensile adhesion strength test method of the precast concrete member interfill member characterized in that it comprises a test step to evaluate by performing a direct tensile strength test of the tensile test piece.

1 is a flow chart illustrating the procedure of the present invention.

Figure 2a is a side view of the tension force transmission device of the present invention.

Figure 2b is a view showing the front plate of the present invention.

Figure 2c is a view showing the inner plate of the present invention.

Figure 3a is a plan view showing the relationship between the steel frame and the tensile force transmission device according to the present invention.

Figure 3b is a side sectional view showing after pouring concrete in the steel mold according to the present invention.

Figure 4a is a plan view after putting the filler between the concrete member according to the present invention.

4B is a side cross-sectional view of FIG. 4A.

Figure 5 is an example direct tensile strength test according to the present invention.

Explanation of symbols for the main parts of the drawings

1: bolt 2: nut

3: bolt mounting hole 4: front panel

5: inner plate 6: bar for tensile force transmission

7 bar mounting hole 8 steel frame base plate

9: steel frame side plate 10: fitting plate

11: fitting groove 12: concrete

13: concrete member 14: filler

15: universal testing machine 16: tension grip

20: tensile test piece 100: steel mold

Referring to the configuration and operation of the present invention with reference to the accompanying drawings as follows.

1 is a flow chart illustrating the procedure of the present invention.

One step of the embodiment of the present invention will be described with reference to FIG. The tensile force transmission device is configured to effectively transmit the tensile force to the precast member for evaluating the adhesion strength between the filler material 14 and the precast member by the tensile force. Figure 2a is an overall configuration of the tension force transmission device, Figure 2b is a detailed view of the front plate, Figure 2c is a detailed view of the inner plate.

Referring to the tension force transmission device 50, the front plate 4 is formed with a plurality of bolt mounting holes (3) in the square plate, the bar mounting hole 7 is formed in the center plate. The inner plate 5 is also provided with the same number of bolt mounting holes 3, and a bar mounting hole 7 is formed in the center thereof. The bolt 1 is pushed through the bolt mounting hole 3 formed in the front plate 4 and the inner plate 5 at the same time to push the bolt 1 out of the inner plate 5 so that the end of the bolt 1 in the front plate 4. And nut (2). In addition, through the bar mounting holes 7 formed in the front plate 4 and the inner plate 5, the tensile force transmission bar 6 is pushed toward the front plate 4 from the inner plate 5. At this time, the distance between the inner plate 5 and the front plate 4 is fastened to the bolt (1) and the nut (2) to maintain a constant interval.

Referring to the most preferred embodiment of the above-mentioned tensile force transmission device as follows.

The front plate 4 is an iron plate having a thickness of 2 mm and a length of 100 mm each, and the inner plate 5 is made of an iron plate having a thickness of 6 mm, each of 60 mm in length and width, and the front plate 4 and the inner plate ( 5) four holes 3 each having a diameter of 6.5 mm were installed to insert the bolt 1 having a diameter of 6 mm and fastened with a nut 2 to fix the inner plate 5. In addition, a bar 6 having a diameter of 15 mm for exerting a tensile force is provided through a bar hole 7 having a diameter of 15.5 mm. At this time, the inner plate 5 and the front plate 4 to maintain a gap of 70mm so that the tensile force can be transmitted to the filling portion by the adhesion force of the concrete filled in this portion.

Referring to the method of manufacturing the tensile test specimen using the tensile force transmission device formed as described above are as follows.

3A and 3B, the front plate 4 of the tension force transmission device 50 is inserted into the fitting groove 11 of the steel frame side plate 9, and is also formed in the center of the side plate (9) Insert the fitting plate (10) into the installation. Then, after the concrete 12 is poured into a space formed between the steel mold bottom plate 8, the steel mold side plate 9, and the fitting plate 10, the concrete member 13 formed by curing is refitted. The plate 10 is removed and mounted on the steel mold 100, and the filler 14 is injected into the connection portion to cure the steel mold 100 to demould to complete the tensile test piece 20.

Next, as shown in FIG. 5, the tensile force transmitting bar 6 of the tensile force transmitting device protruding from both ends of the tensile test piece 20 is fixed to the tension grip 16 of the universal testing machine 15 and then loaded. Record the maximum load when the tensile test piece 20 breaks and measure the failure state at that time.

The bond strength is calculated as in Equation 1 below. Since the precast concrete member connected by the filling part must have the same structural performance as the concrete member without the joint even though it has the joint, the obtained bond strength can be evaluated in comparison with the direct tensile strength of the concrete.

[Equation 1]

As described above, the direct tensile bond strength test method of the filler material between precast concrete members includes three steps as follows.

First, the tension force transmission device manufacturing step of manufacturing the tensile force transmission device 50 goes through, and then the tensile test piece manufacturing step to produce a test specimen for direct tensile adhesion strength fixed to the tension force transmission device 50 therein, and finally By using the universal testing machine (15) is subjected to a test step to evaluate by performing a direct tensile strength test of the test specimen.

Therefore, when measuring the adhesion strength between precast members by the test apparatus of the present invention, it is possible to effectively transmit the externally exerted tensile force to the connection part, so that the centerline of the test body and the action line of the tensile force coincide to exclude the effect of eccentricity and direct tensile force In this case, the pure bond strength can be measured.

Claims (4)

A front plate 4 in which a plurality of bolt mounting holes 3 are formed in a square plate and a bar mounting hole 7 is formed in the center of the plate; An inner plate 5 having the same number of bolt mounting holes 3 as the front plate and having a bar mounting hole 7 formed in the center thereof; A bolt (1) installed at regular intervals through the bolt installation hole (3) formed in the front plate (4) and the inner plate (5) at the same time; A nut (2) fastened to the bolt (1); And a tensile force transmission bar (6) installed toward the front plate (4) from the inner plate (5) through the rod installation hole (7). Tensile force transmission device manufacturing step of manufacturing a tension force transmission device 50; A tensile test piece manufacturing step of manufacturing a tensile test piece 20 for direct tensile attachment strength test in which the tensile force transmission device 50 is fixed therein; And a test step of evaluating by performing a direct tensile strength test of the tensile test piece (20) using a universal testing machine (15). According to claim 2, wherein the tensile test piece manufacturing step is a tension force transmission device installation step of inserting the front plate (4) of the tensile force transmission device 50 into the fitting groove 11 of the steel frame side plate (9); A fitting plate installation step of fitting the fitting plate 10 to a groove formed in the center portion of the steel mold side plate 9; A concrete member forming step of curing the concrete 12 after pouring it into a space formed between the steel mold base plate 8 and the side plate 9 and the fitting plate 10 of the steel mold frame; After removing the fitting plate 10, the concrete member 13 is mounted on the steel mold 100, and the filling material 14 is injected into the connection portion to cure, thereby completing the tensile test piece 20 for demolding the steel mold 100. Direct tensile adhesion strength test method of the filler material between the precast concrete member, comprising a The method of claim 2, wherein the tensile test piece manufacturing step first embeds the tensile force transmission device inside the precast concrete tensile test piece, and then prepares the test specimen so that the centerline of the tensile test specimen coincides with the centerline of the tensile force transmission device so that eccentricity acts on the test specimen. Direct tensile strength test method of the filler material between the precast concrete member, characterized in that to produce a tensile test piece that can be loaded without pure tensile force.