KR20020038211A - preparation material with hardenability - Google Patents

Abstract

PURPOSE: A curable composition comprising white cement, combustible materials(cokes, anthracite, charcoal, etc.) and ceramic powders is provided to repair the damaged part of metals and plastics. The composition has good tensile strength and adhesion compared with conventional cyano acrylate adhesives. CONSTITUTION: The curable composition comprises 30-40vol.% of white cement and 60-70vol.% of sand or 35-45vol.% of white cement, 35-55vol.% of combustible materials selected from cokes, anthracite, charcoal, and a mixture thereof, and 10-20vol.% of ceramic powder, wherein cyano acrylate is optionally added as a thermal hardening agent. The resultant composition is also effective to repair the damaged bumpers and exhausts of cars.

Description

Curable composition {preparation material with hardenability}

The present invention relates to a curable composition, and more particularly, to a curable composition that bonds a damaged portion with excellent adhesive strength when cracking or cracking occurs due to breakage of plastics, metals and the like.

As a result of modern developed science, industrially used objects are made of metal or plastic, and in the case of automobiles, this is no exception. In particular, the most damaged parts of automobiles are combustion exhaust or bumpers. Combustion exhaust boxes are rusted by the oxidation of soot produced in vehicles, and in some cases, holes are drilled. When the combustion exhaust cylinder is damaged in this way, it is very difficult to recycle, causing problems of environmental pollution along with economic losses due to replacement with new ones.

In addition, the vehicle bumper is a shock absorber that plays an important role in protecting the vehicle body from external shocks and is often partially broken or torn by a light contact accident or a slight external shock. The bumper thus damaged was sometimes used as a strong adhesive by bonding and repainting the damaged part. However, if a strong adhesive could be used, it would only be possible if the shape of both awakened was kept intact. Therefore, in the case of severely damaged and debris of the damaged part can not be recycled, it was necessary to replace with another bumper.

Therefore, there is a need for a material having a strong adhesive force that can be used for all parts, such as torn or partially lost areas due to breakage of metals such as exhaust and plastics such as bumpers.

SUMMARY OF THE INVENTION An object of the present invention for solving such a problem is to provide a curable composition for quickly adhering a portion that is corroded or lost due to breakage of metals while maintaining excellent tensile strength.

It is another object of the present invention to provide a curable composition that quickly bonds plastics that are cracked or lost due to breakage while maintaining excellent tensile strength.

It is another object of the present invention to provide a curable composition that adheres quickly while maintaining excellent tensile strength when metals such as exhaust bins, plastics such as bumpers, etc. are corroded, cracked or lost.

The composition for bonding to achieve the above object is prepared by mixing an inorganic binder and sand, or by mixing an inorganic binder, a combustion material selected from anthracite, coke, charcoal and mixtures thereof, and ceramics.

Preferably, the inorganic binder used in the present invention uses a white cement, more preferably white portland cement is used.

Also preferably, the bonding composition is a mixture of 30-40% by volume of inorganic binder, 70-60% by volume of sand, or 45-35% by volume of inorganic binder, and a combustion material selected from anthracite, coke and charcoal and mixtures thereof. It is prepared by mixing 35 to 55% by volume, and 20 to 10% by volume of ceramics.

In addition, the use of cyanide acrylate as a thermosetting agent of the bonding composition maintains a strong tensile strength.

Hereinafter will be described in detail based on the embodiment of the present invention.

Process for applying the composition for binding of the present invention is applied according to the following form.

1. Application to plastics

end. Repair process in case of simple damage

The damaged area that needs to be bonded is ground to a grinder with a width of 6-8mm, and then a small amount of curable composition is applied after applying cyanide acrylate. This process is repeated 2 to 3 times, and then the surface is polished and painted after filling and bonding the adhesive site.

I. Repair process of drilled area

After cutting the cleaning material such as broken and drilled parts 1 ~ 3mm less than the drilled parts, apply a small amount of curable composition after applying the cyanide acrylate to the gaps on both sides to be bonded. This process is repeated 2 to 3 times, and then the surface is polished and painted after filling and bonding the adhesive site.

2. When applied to metals

end. Repair process in case of simple damage

First, foreign substances (rust or other substances generated by oxidation of metals) existing at the bonded portion are removed by using abrasive paper or wheel cleaner. After applying cyanide acrylate to the inside and outside of the joint, a small amount of the curable composition is applied. This process is repeated three to four times to complete the surface polishing and painting after filling and bonding the adhesive site.

I. Repair process of drilled area

Remove any foreign substances on the damaged and perforated parts with abrasive paper or wheel cleaner. The stainless steel sheet is cut 1 to 3 mm larger than the perforated portion and attached with silver foil tape, etc., and then the cyanide acrylate is applied to the gaps between both sides to be joined, and a small amount of the curable composition is sprayed. This process is repeated 2 to 3 times, and then the surface is polished and painted after filling and bonding the adhesive site.

The curable composition of the present invention as described above will be described based on the examples.

Example 1

Grind the torn or broken parts of the bumper for automobiles with a grinder to 5-7mm, apply a cyanide acrylate, a thermosetting agent, and then use 70 to 40% by volume of white cement as an inorganic binder and 30 to 60% by sand. The curable compositions of Samples 1, 2, 3, 4, and 5 prepared by mixing were sprayed. Tensile strength (test method KS M3722-97) was measured by repeating the above process three times, and as a comparative example, only the general instantaneous strong adhesive was applied and the experimental results are shown in Table 1.

Test material Curable composition Tensile Strength (Kgf / ㎠) Sample 1 70% white cement, 30% sand 132 Sample 2 60% by volume of white cement, 40% by volume of sand 131 Sample 3 50% by volume of white cement, 50% by volume of sand 129 Sample 4 40% by volume white cement, 60% by volume sand 135 Sample 5 30% by volume white cement, 70% by volume sand 161 Comparative example Instant Strong Adhesive 132

As shown in Table 1, the curable composition mixed with white cement, which is an inorganic binder, and sand did not generally have a difference in tensile strength between cyanide acrylate instantaneous adhesive, but 40 to 30% by volume of white cement and 60 to 70% by volume of sand. It can be seen that when mixed, the tensile strength is much higher than that of the cyanide acrylate strong adhesive.

Example 2

Grind the torn or broken parts of the car bumper to 5-7mm, apply a cyanide acrylate, a thermosetting agent, and use 55 to 35% by volume of white cement as an inorganic binder and anthracite, coke and charcoal. The curable compositions of Samples 6, 7, 8, and 9 prepared by mixing 35 to 55% by volume of mixed combustion materials and 10 to 20% by volume of ceramic powder were sprayed. Repeat the above process three times to measure the tensile strength (test method KS M3722-97) is shown in Table 2 the experimental results.

Test material Curable composition Tensile Strength (Kgf / ㎠) Sample 6 55% of white cement, 35% of burning material, 10% of ceramic powder 145 Sample 7 50% by volume of white cement, 35% by volume of combustion materials, 15% by volume of ceramic powder 138 Sample 8 45% of white cement, 35% of burning material, 20% of ceramic powder 153 Sample 9 White cement 35%, burner 55%, ceramic powder 10% 153 Comparative example Instant Strong Adhesive 132

As shown in Table 2, the curable composition mixed with an inorganic binder white cement, anthracite coal, coke, charcoal mixed combustion material, and ceramic powder generally showed higher tensile strength than cyanide acrylate instantaneous adhesive.

As described in the experiments, the curable composition of the present invention has a higher tensile strength than when used alone as a strong adhesive, and can be easily used with a thermosetting agent such as cyanide acrylate. You can complete the whole process with a simple process.

As described above, although the experimental results of adhesion of the bumper for automobiles have been provided as an example of the curable composition of the present invention, the present invention can be applied to all plastics, nonmetals, and other materials as described in detail. It will be appreciated by those skilled in the art that various changes or modifications can be made without departing from the spirit of the appended claims.

As described above, the curable composition of the present invention can bond metals such as automobile exhaust combustion tanks with superior adhesive strength than the instantaneous strong adhesive.

In addition, the curable composition can be quickly adhered with high adhesion even when the plastics such as bumpers are torn or lost.

In addition, the surface can be completely reproduced by the surface polishing and painting process of the adhesive part after the completion of the adhesion.

Claims (4)

Curable composition, characterized in that the white cement 40 to 30% by volume and sand is mixed by 60 to 70% by volume. A curable composition formed by mixing a white cement, a combustion material selected from one of anthracite, coke, charcoal, and mixtures thereof, and ceramic powder. The method according to claim 2, wherein the white cement of 45 to 35% by volume, the combustion material selected from one of 35 to 55% by volume of the anthracite, coke, charcoal and mixtures thereof, and 20 to 10% by volume of ceramic powder are mixed. Curable composition, characterized in that the composition. The curable composition according to claim 1 or 2, further comprising cyanide acrylate as a thermosetting agent.