JP2007255039A - Concrete sleeper repairing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a concrete sleeper repairing method for repairing a cracked part of a concrete sleeper in the laid state at a railroad track to recover strength properties of the concrete sleeper lost by crack formation and improving the durability of the concrete sleeper itself while suppressing crack increase after repair. <P>SOLUTION: The concrete sleeper repairing method includes a process for applying and impregnating an epoxy-based resin composition with viscosity in a range of 300-1,000 mPa s into the cracked part of the concrete sleeper and applying the epoxy-based resin composition to the surface of the sleeper to which the cracked part is exposed, and then coating the surface with a polymer cement coating film waterproof material and curing it. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a method for repairing a concrete sleeper used for a rail of a railway track, and in particular, repair of a concrete sleeper capable of effectively repairing a crack portion in a state where the concrete sleeper is laid on the railroad track. Regarding the method.

Conventionally, concrete structures have been highly valued as being semi-permanent, but at present, in diversifying use environments, there are many cases where deterioration occurs at an early stage.
In recent years, deterioration due to salt damage, alkali aggregate reaction, etc., and the delamination of concrete fragments that are likely to cause damage to third parties have developed into social problems, and interest in technologies that improve the durability of concrete structures. Is growing.

Various methods have been proposed for repairing deteriorated concrete structures.
In particular, repairing the cracked portion of concrete sleepers used in railroad tracks is one of the most noticeable problems in recent years.

As a method for repairing a concrete sleeper, JP 2003-20602 A discloses a method for repairing a concrete sleeper by replacing a conventional embedded stopper with a new embedded stopper. The conventional embedding stopper of the sleeper is removed by boring, the first step of drilling a hole through the concrete sleeper in the vertical direction at the embedding location of the conventional embedding plug, and the concrete sleeper was drilled. A second step of press-fitting a bottom plug made of rubber or other effect material into the bottom of the hole, and a new embedded plug is inserted into the hole, and the gap between the hole and the outer peripheral surface of the new embedded plug is inserted A method of repairing a concrete sleeper comprising a third step of injecting a thermosetting resin is disclosed.
The concrete sleeper repair method described in the publication is a method related to the breakage of the embedding plug of the concrete sleeper, not the repair of the entire concrete sleeper, and the concrete sleeper by replacing the embedding plug with a new one. Only the repair method is described.

Also, in Japanese Patent Application Laid-Open No. 2004-244919, a U-shaped frame material is fixed on the upper surface of a sleeper so as to surround both sides of the recessed portion and the lower side in the inclined direction, and a filling curing agent is poured into the recessed portion. Further, a method for repairing an existing sleeper laid obliquely in the longitudinal direction on an inclined roadbed or bridge such as covering a pressing plate having an outer shape larger than the opening of the recessed portion from above is disclosed. Yes.
The gazette describes a method of repairing a sleeper that repairs a recess of a sleeper laid so as to be inclined in the longitudinal direction on a sloping roadbed or bridge while being laid on a sloping roadbed or bridge. It ’s just that.

As described above, the concrete sleeper repair method described in these publications repairs the concrete sleepers while laying the concrete sleepers, but does not relate to repairing cracked portions of the concrete sleepers. At present, sufficient investigation has not been made on repair methods for cracks in sleepers.
Because concrete sleepers are repeatedly loaded by train travel, once they begin to deteriorate, the progress is considered to be extremely fast. Development of repair methods that can be effectively repaired is desired.
JP 2003-20602 A JP 2004-244919A

  The object of the present invention is to repair a cracked portion of a concrete sleeper while laid on a railroad track, recover the strength properties of the concrete sleeper lost due to the occurrence of a crack, and suppress the expansion of cracks after repair. An object is to provide a method for repairing a concrete sleeper that can improve the durability of the concrete sleeper itself.

In the repair method for a concrete sleeper according to claim 1 of the present invention, the crack portion of the concrete sleeper is coated and impregnated with an epoxy resin composition having a viscosity in the range of 300 to 1000 mPa · s, and the crack portion is exposed. A step of applying the epoxy resin composition to the surface of the sleepers, and then covering the surface with a polymer cement waterproofing material and curing the surface.
The method for repairing a concrete sleeper according to claim 2 is the method for repairing a concrete sleeper according to claim 1, wherein after the applied epoxy resin composition is cured, the epoxy-based waterproofing material is coated with a polymer cement-based waterproofing material. A resin composition is coated.
The method for repairing a concrete sleeper according to claim 3 is the method for repairing a concrete sleeper according to claim 1, wherein the applied epoxy resin composition is uncured and the epoxy resin composition is waterproofed with a polymer cement-based waterproofing material. The resin composition is coated.

The method for repairing a concrete sleeper according to claim 4 is the method for repairing a concrete sleeper according to any one of claims 1 to 3, characterized in that the epoxy resin composition is of a wet surface curing type.
The method for repairing a concrete sleeper according to claim 5 is the method for repairing a concrete sleeper according to any one of claims 1 to 4, wherein the polymer cement-based waterproofing membrane has a polymer solid content / cement mass ratio. 0.4 to 2.0.

The method for repairing a concrete sleeper according to claim 1 of the present invention is to impregnate a crack portion of a concrete sleeper with an epoxy resin composition, and thereafter coat and cure with a polymer cement-based waterproofing material. The effect of preventing UV deterioration, which is a drawback of epoxy resin compositions, improving the durability of epoxy resin impregnated materials, and providing waterproofing, salt insulation and neutralization resistance to the entire repaired concrete sleeper Is obtained.
Moreover, the repair method of the concrete sleeper of Claim 2 WHEREIN: In addition to the said effect, by applying the coating of a polymer-cement-type coating-film waterproof material after the said construction epoxy-type resin composition hardens | cures, an epoxy By confirming the injection impregnation status of the resin-based resin composition and refilling, etc., it is possible to cover the polymer cement-based waterproofing film, which is a protective layer, after complete crack injection, and can maintain the repair effect for a long time The effect is obtained.
The method of repairing a concrete sleeper according to claim 3, wherein the coating of the polymer cement-based waterproof coating material is applied before the applied epoxy resin composition is cured, so that the construction time can be improved. A significant shortening effect can be obtained.

The method for repairing a concrete sleeper according to claim 4 is a repair in addition to the effect of claim 1, claim 2, or claim 3, wherein the epoxy resin composition is a wet surface curable type. Even if the part is wet with rainwater or the like, it can be effectively repaired, and there is an effect that it is not necessary to perform a treatment such as drying for the repair.
The method of repairing a concrete sleeper according to claim 5 is characterized in that the polymer solid content / cement mass ratio of the polymer-cement-based coating film waterproofing material is set to 0.4 to 2.0. Alternatively, in addition to the above effect described in 4, since the crack followability and adhesiveness are excellent, even if the repaired portion is cracked again, the protective function is not impaired.

Preferred embodiments of the present invention will be described below with reference to the drawings.
1 (a) to 1 (c) are explanatory views sequentially showing steps of an example of a method for repairing a concrete sleeper according to the present invention, and FIG. 1 (a) shows a method for repairing a concrete sleeper according to the present invention. FIG. 1 (b) is a diagram showing a cracked state of a concrete sleeper before being applied, and FIG. 1 (b) shows that the cracked portion is exposed by impregnating the cracked portion with the epoxy resin composition in the method of repairing a concrete sleeper of the present invention. FIG. 1 (c) shows a step of applying a cement-based coating waterproof material in the method of repairing a concrete sleeper according to the present invention.
Although not shown in the drawings, the concrete sleepers having cracked portions are laid on the roadbed or the bridge without removing the rails or the like when performing the repair of the present invention (FIG. 1 (a)). Of course, it can be removed and repaired.
Furthermore, if necessary, it is also possible to remove dust or debris by grinding or cutting the concrete surface portion.

In constructing the concrete sleeper repair method according to the preferred embodiment of the present invention, dust, debris, etc. on the concrete sleeper are removed, and the cracked portion is exposed.
Then, as shown in FIG. 1 (b), the epoxy resin composition is applied to the cracked portion of the deteriorated concrete sleeper using, for example, a brush, and is sufficiently impregnated so that no corners are formed. The portion is filled with the epoxy resin composition.

Next, on the surface where the cracked portion of the concrete sleeper in which the cracked portion is filled with the epoxy resin composition is exposed, for example, using a roller or the like, an epoxy similar to the epoxy resin composition applied to the cracked portion is used. The resin composition is uniformly applied (FIG. 1 (b)).
When the epoxy resin composition is applied to the surface, the entire surface or a part of the concrete sleeper is applied and coated with the epoxy resin composition so as to cover the cracked portion filled with the epoxy resin composition. be able to.
In this way, by applying the epoxy resin composition to the surface of sleepers and coating and coating the cracked part, it can be applied not only to cracks that can be visually confirmed, but also to fine cracks that are difficult to visually confirm Impregnation treatment can be performed.

  Here, as an epoxy resin composition that can be used in the method for repairing a concrete sleeper of the present invention, any composition mainly composed of an epoxy resin composition can be used, and an epoxy resin composition can be used. Examples thereof include bisphenol A type liquid resin and bisphenol F type as the main agent, and those using polyaminoamide, modified polyaminoamide, modified aliphatic polyamine, modified aromatic polyamine, and modified polyamidoamine as the curing agent. .

In particular, since the repair method of the present invention is intended for concrete sleepers that have been laid, rainwater that has entered due to cracking tends to stay inside, so the cracked part to be repaired is in a wet state In this case, with regard to the epoxy resin composition, if the curing agent is an ordinary amine-based one, the solubility in water is insufficient, and it is often difficult to develop sufficient strength. An epoxy resin composition is preferably used, and examples thereof include a two-pack type epoxy resin composition using a modified aliphatic polyamine, a modified aromatic polyamine, a modified polyamidoamine and the like as a curing agent.
Here, the wet surface curable type has a sufficient strength development curing action even when the environment is in a wet state, and examples of the curing agent include modified aliphatic polyamines and modified aromatics as described above. An epoxy resin composition using polyamine, modified polyamidoamine or the like.

Further, the epoxy resin composition has a viscosity measured according to JIS K 6833 in the range of 300 to 1000 mPa · s, particularly preferably 500 to 800 mPa · s.
When the viscosity of the epoxy resin composition is 300 to 1000 mPa · s, good filling performance can be exhibited even for extremely fine cracks of about 0.05 mm. Even when the epoxy resin composition is injected, the epoxy resin composition remains in the cracked portion without flowing out, so that the filling effect of the epoxy resin composition is not lowered. Furthermore, the said effect will appear more effectively by setting it as the suitable range of 500-800 mPa * s.

The application amount of the epoxy resin composition can be arbitrarily adjusted according to the degree of deterioration such as crack width, but the surface of the concrete sleeper where the crack portion is exposed is approximately 100 g / m ^{2 to} 300 g. It is preferable to apply at a coating amount of / m ² .

Next, as shown in FIG. 1C, the epoxy resin composition is cured, and the surface coated with the epoxy resin composition is further uniformly coated with a polymer cement-based waterproofing material.
By covering the surface with the polymer cement-based waterproof coating material, the epoxy resin composition can be prevented from being deteriorated by ultraviolet rays such as sunlight.
The coating amount of the polymer cement preparation waterproofing membrane material is not particularly limited, as a standard coating weight is about 500g ^{/ m 2} ~1000g ^/ m 2 approximately.

Even if the epoxy resin composition is applied in an uncured state or after the epoxy resin composition is completely cured, the adhesive strength is not affected. And can be selected as appropriate.
The epoxy resin composition contained in the polymer cement-based waterproof coating material has a polymer solid content / cement mass ratio of 0.4 to 2.0, preferably 1.0 to 1.5.
By setting it as this mass ratio, the performance of a polymer can fully be exhibited and it does not have a bad influence on performance, such as a hardening delay of cement.

The cement used for the polymer cement-based coating waterproofing material is such as calcium aluminate-based, calcium sulfoaluminate-based, calcium fluoroaluminate-based cement, Portland cement, fast-hardening cement, ultra-fast-hardening cement, etc. Any available cement can be exemplified and these can be used alone or in admixture.
In addition, the cement used in the repair method of the present invention includes blast furnace slag powder, fly ash, silica fume, limestone powder, quartz, which is a material having pozzolanic activity, in order to improve long-term strength, relieve shrinkage, and prevent occurrence of cracks, etc. Known admixtures that can be mixed with cement such as powder, dihydrate gypsum, hemihydrate gypsum, type I, type II and type III anhydrous gypsum can be blended alone or in combination. .
Furthermore, other known chemical admixtures such as thickeners, water reducing agents, shrinkage reducing agents and the like can be added as necessary.

Furthermore, examples of the polymer used in the polymer cement-based coating waterproofing material used in the present invention include a liquid polymer emulsion, rubber latex, and a powdered re-emulsifying powder resin.
In particular, when using a re-emulsified powder resin, there is no need for on-site weighing, and quality control becomes easy.
As these admixture polymers, polyacrylic acid ester exemplified in JIS A 6203, styrene butadiene, ethylene vinyl acetate, vinyl acetate / versaic acid vinyl ester, vinyl acetate / vinyl versatate / acrylic acid ester and the like are the main components. Polymer dispersions and re-emulsifying powder resins, which can be used alone or in admixture.
Particularly preferably, an acrylic polymer can be used, and it is preferable from the viewpoint of durability to use a dispersion of the acrylic polymer.

  Thus, after covering with the polymer cement-based coating film waterproofing material, curing, the polymer cement-based coating film waterproofing material is cured, so that the repair method of the present invention can be carried out.

The present invention will be further described with reference to examples, comparative examples and test examples.
Example 1
The method for repairing a concrete sleeper according to the present invention was performed using the deteriorated concrete sleeper shown in FIG.
Apply an epoxy resin composition (trade name: Refletuff Bond; manufactured by Sumitomo Osaka Cement Co., Ltd .; wet-curing type) to the cracked part of concrete sleepers (approximately 32mm, 40mm, 47mm depth) using a brush. Then, the epoxy resin composition was applied onto the entire surface of the sleeper where the cracked portion was sufficiently impregnated using a roller (FIG. 1B).
The application amount of the epoxy resin composition was about 150 g / m ² .
However, the viscosity of the epoxy resin composition has a value of 890 mPa · s as measured by JIS K 6833.

Next, before the epoxy resin composition is cured, a polymer cement coating waterproofing material (trade name: Lion Flex Coat, manufactured by Sumitomo Osaka Cement Co., Ltd.) is applied on the epoxy resin composition coating. About 0.8 kg / m ^{2 was} applied (FIG. 1 (c)), and curing was performed for 1 week under the conditions of 0 ° C. and 60% RH, and the concrete sleeper repair method of the present invention was applied.

(Example 2)
A concrete sleeper was repaired in the same manner as in Example 1 except that the curing was performed for one week under the standard conditions of 20 ° C. and 60% RH.
(Example 3)
A concrete sleeper was repaired in the same manner as in Example 1 except that the curing was performed for 1 week under water conditions in which the curing was immersed in water at 20 ° C.

(Comparative Example 1)
The concrete sleepers were repaired by the method described in Example 1 except that the viscosity of the epoxy resin composition was 2000 mPa · s (trade name; E200, manufactured by Konishi Co., Ltd.).

(Comparative Examples 2 and 3)
A concrete sleeper was repaired by the method described in Example 2 or Example 3 except that the epoxy resin composition described in Comparative Example 1 was used.

(Test Example 1)
The crack repair portion of the concrete sleepers constructed in each of the above examples and comparative examples was cored and the impregnation depth and adhesion strength were measured.
The results are shown in Tables 1 and 2.
The impregnation depth is a value obtained by measuring the depth at which the epoxy resin composition is filled from the surface.
The adhesion strength is indicated by a value measured with a Kenken tensile tester.
The fracture state is represented by the fracture state after the adhesion test.

From Table 2, it can be seen that, in the examples, both the standard curing and the underwater curing are such that the repaired portion is well bonded because the sleeper base material is broken rather than the repaired portion.
On the other hand, in the comparative example, the adhesion strength is also inferior to that of the example, and it is shown that the repaired part is poor in the underwater curing in which the sleeper-epoxy interface fracture occurs.

  The method of repairing a concrete sleeper according to the present invention can be used to effectively repair a cracked part in a state where a concrete sleeper is laid on a railroad track. It can be applied to repair concrete sleepers.

It is a figure which shows sequentially the process of an example of the repair method of the concrete sleeper of this invention, (a) is a figure which shows the crack state of a concrete sleeper before applying the repair method of this invention, (b) The figure explaining construction of an epoxy resin composition, (c) is a figure explaining construction of a polymer cement type coating film waterproofing material.

Claims (5)

After applying and impregnating the cracked portion of the concrete sleeper with an epoxy resin composition having a viscosity of 300 to 1000 mPa · s, and applying the epoxy resin composition to the surface of the sleeper where the crack portion is exposed, A method for repairing a concrete sleeper, comprising a step of covering the surface with a polymer cement-based waterproofing material and curing the surface. 2. The method for repairing a concrete sleeper according to claim 1, wherein the epoxy resin composition is coated with a polymer cement-based waterproofing material after the applied epoxy resin composition is cured. 2. The method of repairing a concrete sleeper according to claim 1, wherein the applied epoxy resin composition is coated with a polymer cement-based waterproofing material in an uncured state. The method for repairing a concrete sleeper according to any one of claims 1 to 3, wherein the epoxy resin composition is a wet surface-curing type. The method for repairing a concrete sleeper according to any one of claims 1 to 4, wherein the polymer cement-based waterproofing membrane has a polymer solid content / cement mass ratio of 0.4 to 2.0.

Images