KR20190060075A - Bending Specimen for Producing Crack without Sudden Fracture, and Method for Producing Bending Crack in such Bending Specimen - Google Patents

Abstract

The present invention relates to a ″bending test piece″ with various sizes of bending cracks with a specific width and depth desired by a user, which are artificially generated in advance, and a ″manufacturing method of the bending test piece.″ According to the present invention, the bending test piece is a sample, that is, a ″bending test piece″ in a shape of a beam, which has a rectangular cross-section and is extended long in a longitudinal direction, applying a vertical load to cause a bending behavior, and to generate the bending cracks in advance without a sudden splitting. According to the present invention, the manufacturing method thereof, which manufactures the bending test piece (100) by using a mold manufactured in the shape of a rectangular parallelepiped, comprises: a step of manufacturing the bending test piece (100) to have a penetrating hole (1) for preventing a crack from spreading; a step of applying a vertical load vertically at a position where the penetrating hole (1) for preventing a crack from spreading exists; and a step of, when the bending cracks (3) reach a specific width and depth desired by the user, eliminating the vertical load. Accordingly, the present invention is able to block a phenomenon where bending cracks are spread up to an upper surface of the bending test piece by the penetrating hole (1) for preventing the cracks from spreading, and to manufacture the bending test piece with the bending cracks with the width and depth in a size desired by the tester, which are formed in advance, while keeping the status of the bending test piece being not separated by suddenly splitting.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bending specimen in which a flexural crack having a specific width and depth is generated in advance,

The present invention relates to a specimen in the form of a beam having a rectangular cross-section and elongated in the longitudinal direction, that is, a "flexural specimen", in which a vertical load is applied to form a flexural crack in advance by flexural behavior, A flexural specimen in which various sizes of flexural cracks are artificially generated having a specific width (width in the longitudinal direction) and depth (length in the vertical direction) desired by the tester in the absence of any cracking, A method for manufacturing a warp specimen ".

As the technology of concrete field develops, various materials that can repair and reinforce cracks generated in concrete have been developed and used. In recent years, Healing concrete "and the performance of such self - healing concrete have been actively studied.

In order to evaluate the crack repair performance and the self-healing performance of such materials such as concrete, it is necessary to form a crack of a desired size in the specimen and to confirm whether the crack is properly repaired or healed. Korean Patent No. 10-1453312 discloses a " permeability testing technique for evaluating crack healing performance of self-healing concrete ", and even in such a case, cracks in the concrete specimen And whether or not water is pumped through the pipe. Therefore, it is very important to artificially form the cracks of the desired size and shape for the various types of specimens.

In the case of a specimen ("columnar specimen") made in a cylindrical shape (cylindrically shaped), it can be usefully used for measuring changes in cracks through a permeability test and confirming the self-healing effect, There is a drawback that it is difficult. Therefore, it is very urgent to develop a technique for artificially generating a crack in a new type of specimen, measuring the change of cracks, and measuring the strength through mechanical experiments. Therefore, a beam-shaped bending specimen having a rectangular cross section and elongated length is used as a test specimen in which a crack having a desired depth (length in the vertical direction) and width (width in the longitudinal direction) If a warp specimen is manufactured, it can be used very usefully in crack healing evaluation work by performing mechanical experiment using a warp specimen with cracks.

However, when a vertical load is applied to a bending specimen in which the both ends in the longitudinal direction are simply supported in the bending test for loading a vertical load, the bending specimen is broken up suddenly due to the brittle crack due to the brittle properties of the concrete. Therefore, it is very difficult to form the desired crack depth and crack width in the warp specimen without bisecting the warp specimen.

For the columnar specimens, the splitting tensile strength test was carried out to artificially induce cracks in the cylindrical specimens, allowing cracks with various widths to be desired, ranging from very small cracks to very large cracks Technology has been developed and patented by the present inventor (Korean Patent Application No. 10-2016-106308). However, the inventor's description of the columnar specimen is that it completely bisects the specimen, and since the beam specimen bending specimen exhibits a fracture behavior different from that of the circumferential specimen, It is not appropriate to apply the technique of the inventor of the present invention with respect to the columnar specimen as it is.

Korean Registered Patent No. 10-1453312 (Announcement 2014. 10. 22). Korean Patent Application No. 10-2016-106308 (Unpublished)

The present invention has been developed in order to overcome the above-mentioned necessity and to overcome the limit of the prior art. It is a bending specimen made of a beam shape having a rectangular cross-section and extending long, A warp specimen in which a flexural crack is formed in advance at a desired specific crack depth and a specific crack width, and a method for manufacturing such a warp specimen.

It is another object of the present invention to provide a method of inducing cracks in a warp specimen by applying a vertical load and causing the specimen to have cracks having a specific width and depth desired by the warp specimen.

In order to achieve the above object, according to the present invention, there is provided a method of inducing a flexural crack in a beam-shaped flexural specimen having a rectangular cross section and elongated in the longitudinal direction, A step of fabricating a bending specimen so as to form a bending specimen using a mold manufactured in the form of a rectangular parallelepiped and having a penetration hole for preventing crack propagation completely penetrating the bending specimen in the transverse direction at the center position of the bending specimen in the longitudinal direction ; A step of vertically applying a vertical load at a position where the penetration hole for preventing crack propagation is present in a state in which the through hole for preventing propagation of the crack of the flexural specimen is supported at both longitudinal ends of the flexural specimen so as to be positioned at the center in the longitudinal direction; And the step of measuring the width and the crack of the flexural crack generated at the lower surface of the flexural specimen at the position where the penetration hole for preventing crack propagation is measured and terminating the loading of the vertical load when the flexural crack reaches the specific width and depth desired by the operator ; The bending crack propagation to the upper surface of the bending specimen is intercepted by the penetration hole for crack propagation so that the bending specimen is suddenly split and the bending crack of the desired size width and depth is formed in advance And the bending test specimen is produced.

In order to achieve the above object, the present invention provides a bending specimen having a rectangular cross section and being formed in a beam shape elongated in the longitudinal direction and having a bending crack having a desired width and depth, By the manufacturing method according to the present invention as described above, the phenomenon that the flex crack propagates to the upper surface of the flexural specimen is blocked by the penetration hole for preventing crack propagation, and the flex specimen is suddenly split, And a bending crack having a width and a depth of a desired size is formed in advance.

Further, in the present invention, a method of inducing a flexural crack in a beam-shaped bending specimen having a rectangular cross-section and elongated in the longitudinal direction, wherein the bending crack is formed in advance by the tester in a desired width and depth, A bending test specimen is prepared by using the manufactured mold so as to form a through hole for preventing crack propagation that completely penetrates the bending specimen in the transverse direction at the center position of the bending specimen in the longitudinal direction. Providing a through hole in the longitudinal center of the bending specimen so that the through hole is positioned in the center in the longitudinal direction; Applying a vertical load perpendicular to the upper surface of the flexural specimen at a position where the penetration hole for preventing crack propagation is present; And the step of measuring the width and the crack of the flexural crack generated at the lower surface of the flexural specimen at the position where the penetration hole for preventing crack propagation is measured and terminating the loading of the vertical load when the flexural crack reaches the specific width and depth desired by the operator ; The bending crack propagation to the upper surface of the bending specimen is intercepted by the penetration hole for crack propagation so that the bending specimen is suddenly split and the bending crack of the desired size width and depth is formed in advance Of the bending test specimen.

In the present invention, it is possible to effectively prevent the flexural cracks caused by the vertical load from propagating to the upper surface of the flexural specimen, thereby preventing the flexural specimen from being split suddenly, It is possible to easily produce a flexural specimen in which a flexural crack has been formed in advance by a crack width. The flexural specimen produced by the present invention can be obtained by using only the specific crack depth and specific crack Since the flexural cracks are accurately generated in the width, it is possible to maintain the inherent characteristics of the crack surface.

Particularly, when the bending specimen according to the present invention is used, the mechanical performance evaluation according to the change of the crack characteristics such as repair for cracks and cracking due to self-healing can be performed very efficiently.

1 is a schematic perspective view of a flexural specimen according to a first embodiment of the present invention.
Fig. 2 is a schematic front view of the flexural specimen shown in Fig. 1 in a lateral direction. Fig.
FIG. 3 and FIG. 4 are schematic front views sequentially showing a state of causing a desired flexural crack in the flexural specimen shown in FIG. 1,
FIGS. 5 and 6 are schematic front views corresponding to FIG. 4 showing a state in which flexural cracks are generated in a flexural specimen in which a vertical position where a through-hole for preventing crack propagation is formed, in the present invention, respectively.
Fig. 7 is a schematic front view corresponding to Fig. 6 showing a state in which a crack propagation preventing through hole is formed in the same vertical position as that shown in Fig. 6, and a through hole for crack propagation prevention causes a flexural crack in a larger warp specimen.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby. As defined above, the term "bending specimen" as used herein refers to a specimen having a rectangular cross-section and elongated in the longitudinal direction using a material such as concrete or mortar, which is intended to generate cracks artificially, It means. Here, the rectangle means to include a square. &Quot; longitudinal direction " means a direction in which the warp specimen extends long, " lateral direction " means a direction orthogonal to the longitudinal direction, i.e., a width direction of a rectangle, and " vertical direction & .

FIG. 1 shows a schematic perspective view of a flexural specimen 100 according to a first embodiment of the present invention, and FIG. 2 shows a schematic front view of the flexural specimen 100 shown in FIG. 1 in a lateral direction have.

The bending specimen 100 according to the present invention is manufactured by placing a specimen material such as concrete in a mold (die) manufactured in a rectangular parallelepiped shape. As shown in the drawing, the bending specimen 100 There is formed a penetration hole 1 for preventing crack propagation completely penetrating the bending specimen 100 in the transverse direction. That is, at a position corresponding to the center in the longitudinal direction when both ends of the bending specimen 100 are supported for the bending test, the bending specimen 100 is horizontally The through-hole 1 for preventing crack propagation is formed in advance. The crack propagation preventing through-hole 1 functions to prevent the flexural specimen 100 from being further deflected by the action of the vertical load while the flexural cracks generated from the lower surface are further propagated. Further, in the present invention, the through-hole 1 for preventing crack propagation alleviates the concentration of stress generated at the tip of the crack, and also has a function of effectively blocking the progress of the crack.

3 and 4 are schematic front views sequentially showing a state in which a vertical load is applied to the upper center surface of the flexural specimen 100 shown in FIG. 1 to cause a desired flexural crack 3 to occur in the flexural specimen 100 . In order to induce a flexural crack in the bending specimen 100 of the present invention, as shown in Fig. 3, the through hole 1 for preventing crack propagation of the bending specimen 100 is positioned at the center in the longitudinal direction, The vertical load is vertically applied at a position where the through-hole 1 for preventing crack propagation is present. When a vertical load is applied, a bending moment is applied to the bending specimen 100, and a bending tensile stress is generated on the lower surface of the bending specimen 100 at the position where the through-hole 1 for preventing crack propagation is present. If the flexural tensile stress exceeds the flexural strength due to the continued load of the vertical load, a flexural crack (3) occurs at the lower surface of the flexural specimen (100). If the flexural crack occurs once, , The flexural crack (3) continues to develop vertically upward. However, when the bending crack 3 reaches the through-hole 1 for preventing crack propagation, the stress concentration effect is rapidly reduced and the progress of the bending crack 3 is stopped. That is, only the lower portion of the through-hole 1 for preventing crack propagation will cause a flexural crack. Therefore, the tester fabricates the warp specimen 100 in a state where the through hole 1 for preventing crack propagation is formed at a position vertically spaced from the lower surface of the warp specimen 100 by the length corresponding to the depth of the desired warp crack, It is possible to make a flexural crack 3 having a desired depth only by carrying out an experiment in which a vertical load is applied so that the crack reaches the through-hole 1 for preventing crack propagation.

The bending crack 3 may not yet have the specific width desired by the test person even though the bending crack 3 has already reached the crack propagation preventing through hole 1 as shown in Fig. In this case, the load of the vertical load must be continuously increased to further increase the width of the flexural crack 3. In the case of the conventional flexural specimen in which the through-hole 1 for preventing crack propagation is not formed, As it propagates, the bending specimen may split suddenly. If the bending specimen is split, the specimen will not be able to produce bending specimens with the desired width and depth.

However, in the present invention, since the penetration hole 1 for preventing crack propagation is formed, it is effectively prevented that the flexural crack itself propagates further upward through the penetration hole 1 for preventing crack propagation. That is, since the penetration hole 1 for preventing crack propagation is formed in the warp specimen 100 according to the present invention, the bending crack that propagates upward from the lower surface of the warp specimen 100 due to the vertical load, It can not be propagated beyond the through-hole 1 for prevention. Therefore, it is prevented that the warp specimen 100 is suddenly split, and the position of the through-hole 1 for preventing crack propagation is determined as desired by the tester, as will be described later, so that a flexural crack having a desired characteristic depth can be formed .

As described above, according to the present invention, it is possible to effectively prevent the flexural cracks, which have been propagated upward from the lower surface of the flexural specimen 100, from propagating to the upper surface of the flexural specimen 100 to prevent the flexural specimen 100 from being split suddenly , A flexural crack (3) is generated in a section between the lower surface of the warp specimen (100) and the penetration hole (1) for preventing crack propagation. That is, according to the present invention, when the flexural cracks generated in the section between the lower surface of the warp specimen 100 and the penetration hole 1 for preventing crack propagation are prevented by the tester The vertical load can be sufficiently loaded until a specific width is reached.

The load of the vertical load is stopped when the tester 3 reaches the desired width of the flexural crack 3 generated in the portion between the lower surface of the warp specimen 100 and the through hole 1 for preventing crack propagation. By the method of the present invention having the above-described series of processes, it is possible to easily produce a bending specimen in which a bending crack is formed in advance with a specific crack depth and a specific crack width desired by the tester, do. Since the flexural specimen produced by the present invention is in a state in which the flexural crack is accurately generated at a specific crack depth and specific crack width desired by the tester while maintaining the original shape of the rectangular parallelepiped, It has the advantage of retaining the inherent characteristics it possesses.

Particularly, in the present invention, the depth and width of the crack to be formed in advance can be controlled to a desired degree by adjusting the size and position of the through hole 1 for preventing crack propagation.

5 and 6 show schematic views corresponding to FIG. 4 showing a state in which a vertical load is applied to the flexural specimen 100 in which the through holes 1 for preventing crack propagation are formed and the vertical position is changed, A front view is shown. When the warp specimen 100 is manufactured as shown in Figs. 5 and 6, the vertical position where the through-hole 1 for preventing crack propagation is formed is changed as necessary, so that the lower surface of the warp specimen 100 and the crack propagation- The depth of the flexural crack to be generated in advance at the portion between the through holes 1 can be adjusted.

The fact that the vertical position of the through-hole 1 for preventing crack propagation is increased (closer to the upper face of the warp specimen) is larger than the gap between the lower face of the warp specimen 100 and the through-hole 1 for preventing crack propagation it means. Conversely, if the vertical position of the through-hole 1 for preventing crack propagation is low, the distance between the bottom surface of the flexural specimen 100 and the through-hole 1 for preventing crack propagation is small. Therefore, if the same vertical load is applied, the higher the vertical position of the through-hole 1 for preventing crack propagation, the more bending crack having a longer length (deeper) can be formed in the warp specimen 100. [ That is, the higher the vertical position of the through-hole 1 for preventing crack propagation, the greater the gap between the lower surface of the warp specimen 100 and the through-hole 1 for preventing crack propagation, It means that the tester can sufficiently increase the length of the desired flexural crack (the depth of the flexural crack). Conversely, if the vertical position of the through-hole 1 for preventing crack propagation is low, the interval between the lower surface of the warp specimen 100 and the through-hole 1 for preventing crack propagation is small so that only the bending crack having a small length can be formed do.

Therefore, if the length of the bending crack to be made in advance by the tester is small, a bending specimen can be manufactured so that the through-hole 1 for preventing crack propagation is formed at a position close to the lower surface of the bending specimen 100 , If the length of the flexural cracks to be preliminarily made by the test person is large, a flexural specimen is manufactured so that the through-hole 1 for preventing crack propagation is formed at a position close to the upper surface of the flexural specimen 100 as shown in FIG. 6 do.

7, the through-hole 1 for preventing crack propagation is formed at the same vertical position as that shown in Fig. 6, and the bending specimen 100 (Fig. 7), which is larger in size than the through- Is a schematic front view corresponding to Fig. 6 showing a state in which a vertical load is applied to bending deformation. By changing the size of the through-hole 1 for preventing crack propagation, that is, the diameter of the through-hole 1 for preventing crack propagation, when the warp specimen 100 is manufactured, the lower surface of the warp specimen 100 and the through- It becomes possible to control the width of the flexural crack to be generated in advance at the portion between the balls 1. The larger size of the crack propagation preventing through hole 1 means that the crack can be further spread in the longitudinal direction between the lower surface of the warp specimen 100 and the through hole 1 for preventing crack propagation. Therefore, if the same vertical load is applied, the greater the size of the through-hole 1 for preventing crack propagation, the more the bending crack having a larger width can be formed on the bending specimen 100. [

This means that the larger the size of the crack propagation preventing through hole 1, the wider the gap between the lower surface of the warp specimen 100 and the through hole 1 for preventing crack propagation, Can be increased sufficiently. Conversely, the smaller the size of the through-hole 1 for preventing crack propagation, the smaller the margin for the gap between the lower surface of the warp specimen 100 and the through-hole 1 for preventing crack propagation, and accordingly, The width of the paper is also reduced. Therefore, if the width of the flexural cracks to be preliminarily made by the test person is small, a flexural test specimen having a relatively small size of the crack propagation preventing through hole 1 as shown in FIG. 6 can be manufactured and used. On the contrary, If the width of the through hole 1 for preventing crack propagation is larger than that of the through hole 1 as shown in FIG.

As described above, according to the present invention, by adjusting the size of the through-hole 1 for preventing crack propagation and the position where the through-hole 1 for preventing crack propagation is formed in the vertical direction, the depth and width of the bending crack to be formed in advance So that it is possible to very easily and efficiently manufacture the flexural specimen in which the flexure cracks of the specific crack depth and the specific crack width accurately generated by the test person are obtained.

1: Through-hole for preventing crack propagation
3: flexural crack
100: flexural specimen

Claims (2)

A method for inducing a flexural crack in a beam type warp specimen (100) having a rectangular cross section and elongated in the longitudinal direction,
A crack propagation preventing through hole (1) for completely penetrating the warp specimen (100) in a transverse direction at the center position of the warp specimen (100) in a longitudinal direction is manufactured by using a mold manufactured in a rectangular parallelepiped shape, (B) forming a bending specimen (100) so as to form a bending specimen (100);
In the state in which the longitudinally opposite ends of the warp specimen 100 are respectively supported so that the penetration holes 1 for preventing crack propagation of the warp specimen 100 are positioned in the center in the longitudinal direction, Vertically applying a vertical load in the vertical direction; And
The width and the crack of the flexural crack 3 generated at the lower surface of the flexural specimen 100 at the position where the penetration hole 1 for preventing crack propagation is present are measured so that the flexural crack 3 reaches the specific width and depth desired by the user Thereby terminating the loading of the vertical load;
The phenomenon that the propagation of the flexural cracks to the upper surface of the flexural specimen is intercepted by the penetration hole 1 for preventing propagation of the cracks so that the flexural specimen is suddenly broken and the flexural crack of the desired size width and depth And the pre-formed warp specimen is produced. A flexural specimen (100), which has a rectangular cross section and is formed in a beam shape elongated in the longitudinal direction and in which the test piece is formed with flexural cracks of a desired width and depth,
By the manufacturing method according to claim 1, the phenomenon that the flexural crack propagates to the upper surface of the warp specimen is blocked by the penetration hole (1) for preventing crack propagation, so that the warp specimen is suddenly split and is not separated And a flexural crack having a width and a depth of a desired size are formed in advance by the tester.

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