KR100514351B1 - Concrete artificial fishing reef using recycled aggregate - Google Patents

Abstract

The present invention relates to a concrete artificial reef using a recycled aggregate, the unit weight of cement is 350 ~ 450kg / m ³ (water is 25 ~ 35% of the cement), the unit weight of the fine aggregate is 166 ~ 344kg / m ³ , Porous concrete artificial reef and cement composed of unit weight of recycled coarse aggregate is 309-1066kg / m ³ , unit weight of natural coarse aggregate is 345-1118 1kg / m ³ , and high performance fluidizing agent of a weight per unit 400~514kg / m ³ (water is 35-45% of cement), the unit weight of the fine aggregate 485~855kg / m ^3, the unit of reproduction coarse aggregate weight 742~1100kg / m ^3, a high-performance fluidizing agent of cement weight To provide a general concrete artificial reef composed of less than 1%, the artificial reef according to the present invention has the environmental protection, resource recycling, and economic effects by using recycled aggregate, glass fiber rod, carbon + aramid fiber rod , Or carbon island By using the fiber load, such as load bars it becomes the construction is simplified, and an effect that durability is improved, and also, if the amount incorporated into the polypropylene fibers has the effect that can be achieved to promote impact resistance and durability of the eocho.

Description

Concrete artificial reef using recycled aggregates {CONCRETE ARTIFICIAL FISHING REEF USING RECYCLED AGGREGATE}

The present invention relates to a concrete artificial reef, more specifically, the concrete artificial reef using a recycled aggregate to improve the compressive strength and to simplify the construction by deriving the optimum mixing ratio of porous concrete or general concrete using recycled aggregate It is about.

In general, artificial reefs (人工魚礁) is a structure to artificially manufacture the shape and material close to the natural grass to maximize the shading effect, feed effect, swirl effect and shelter effect of the fish reef to improve the productivity of fish and shellfish.

These artificial reefs are environmentally friendly materials such as ocher, waste shell and blast furnace slag in terms of material, and the upper and lower structures are used for waste stream by dualizing the upper and lower structures in terms of shape. Complex prefabricated structures for fry protection have emerged. In addition, by recycling industrial waste, waste tires, waste ships, and waste vehicles are recycled into artificial reefs, but are not widely used because they are certified as general reefs.

Conventional artificial reefs are concrete artificial reefs made of concrete, the concrete is made of natural aggregates such as crushed stone, gravel and sand, aggregate deterioration conditions due to depletion of aggregate resources and strengthening environmental regulations.

As a by-product of the boom in the domestic construction industry, more than 10 million tons of waste concrete are generated annually, most of which are simply landfilled, and only a few of the waste concrete is used as a supplementary base material, retaining wall, and backfill of roads. It's just a stage. In contrast, in the case of Japan, the government has led various legal systems, tax and financial support, and consumer creation methods when recycling construction waste, and construction waste is being transformed into eco-friendly recycled products using highly-utilized technology.

However, in Korea, waste poles and waste concrete sleepers are used as artificial reefs, and artificial reefs manufactured using recycled aggregates have not yet been developed. This is because the Korean Industrial Standard for Recycled Aggregate for Concrete was recently enacted in 1999. In particular, consumer distrust and avoidance of recycled products were the main causes. In 2001, the Ministry of Commerce, Industry and Energy proposed the quality standards for recycled aggregate concrete artificial reefs.

This is because, although at least 210 kgf / cm ² of compressed aggregate concrete has to be developed, the strength of recycled aggregate concrete has not overcome the weak limit.

Meanwhile, the artificial reefs according to the prior art include artificial reefs 1 made of porous concrete as shown in FIG. 1 and artificial reefs 3 made of ordinary concrete as shown in FIG. Is a structure having an empty space therein and having rectangular openings 2 and 4 formed on each side of the cube.

By the way, according to the structure of the conventional artificial reef which has the rectangular openings 2 and 4 in this way, after placing a reinforcing bar, there is the trouble of having to perform concrete pouring twice. That is, since concrete is not poured smoothly at the lower corners of the rectangular openings 2 and 4, the lower part of the structure is poured first to harden the concrete, and then the concrete is poured into the remaining middle part and the upper part. In addition, as shown in Figure 5, the main compression stress is generated in the corner portion of the square fish.

Therefore, conventionally, it takes a lot of time to put concrete, the cost of the two pouring work is also a problem that rises.

The object of the present invention devised in view of such a problem is to provide an artificial reef made of high strength porous concrete using recycled recycled aggregate.

Another object of the present invention is to provide an artificial reef made of general concrete of high strength using recycled recycled aggregate.

Still another object of the present invention is to provide an artificial reef made to be manufactured by one concrete pouring operation by forming openings formed on each side of a cube in a circular shape.

The present invention for achieving the above object is roughly divided into porous concrete artificial reef and general concrete artificial reef.

In the porous concrete artificial reef according to the present invention, the unit weight of cement is 350 to 450 kg / m ³ (water is 25 to 35% of cement), the unit weight of the fine aggregate is 166 to 344 kg / m ³ , and the unit of the recycled coarse aggregate A weight of 309 to 1066 kg / m ³ , a unit weight of the natural coarse aggregate is 345 to 1181 kg / m ³ , and a high performance fluidizing agent is prepared by adding 1% or less of the cement weight.

The recycled coarse aggregate used in the above-mentioned concrete uses 10 to 25 mm of aggregates among 1, 2, and 3 kinds of aggregates of KS (Korea Standard) F (Civil) 2573 (Compressive Strength Regulation). In other words, by removing the coarse aggregate less than 10mm to reduce the absorption and wear loss of the aggregate. In addition, the natural coarse aggregate is used 5 to 15mm in order to increase the performance rate (percentage divided by the unit weight of the aggregate), more preferably between 5 to 10mm aggregate. And cement is used to increase the chemical resistance by using blast furnace cement, fine aggregate uses steel sand or sea sand.

In addition, the general concrete artificial reef according to the present invention is a unit weight of cement 400 ~ 514 kg / m ³ (water is 35 ~ 45% of cement), the unit weight of fine aggregate 485 ~ 855 kg / m ³ , unit weight of recycled coarse aggregate 742 It is prepared by adding 1100 kg / m ³ and a high performance fluidizing agent to 1% or less of the cement weight.

On the other hand, the reinforcing bar inserted in the production of concrete artificial reefs using any one of the fiber rod, carbon + aramid fiber rod, and carbon fiber rod, the diameter of the fiber rod is 3.0 ~ 21mm, yield strength 2400kgf / cm ² Above, the tensile strength of 6000kgf / cm ² or more is used.

The artificial reef made of porous concrete or general concrete according to the present invention prepared as described above has environmental protection, resource recycling, and economic effect by using recycled aggregate as a used material.

In addition, the artificial artificial reef using the recycled aggregate according to the present invention is formed in the shape of a cube formed with a space therein, characterized in that each opening is formed with a circular opening for each surface.

Thus, since the opening is formed in a circular shape, the concrete to be poured is smoothly supplied by riding on a circular curved surface, so that the construction is performed by one concrete pouring operation.

Hereinafter, preferred embodiments of the present invention as described above will be described in more detail with reference to the accompanying drawings.

Artificial reef 10 by porous concrete as shown in Figure 3 is manufactured by the recycled aggregate concrete with a compressive strength of 210 kgf / cm ² or more. Table 1 shows the porous concrete mixing table for producing such recycled aggregate concrete, and the experimental results of the compressive strength, the longitudinal wave velocity, the pH, and the porosity of the porous concrete thus prepared are shown in Table 2, respectively.

Where W / C is water-cement ratio, S / a is fine aggregate ratio, W is unit quantity, C is unit cement amount (blast furnace cement), S is unit fine aggregate (natural aggregate), G is unit thick aggregate, RA ( Recycled Aggregate) is unit recycled coarse aggregate (10 ~ 25mm aggregate size), NA (Natural Aggregate) is unit crushed stone (natural) coarse aggregate (5 ~ 15mm aggregate), SP is high performance fluidizing agent, It is preferable to add in the range of% or less. In the Example of Table 1, the case where it is 0.5% of the cement weight was shown as the example.

In the case of porous concrete, the higher the water-cement ratio (W / C) ratio, the lower the compressive strength, and the larger the aggregate aggregate (S / a), the larger the compressive strength.

In addition, although the compressive strength was increased in proportion to the ratio (NA / G) of the natural coarse aggregate to the unit coarse aggregate, the test specimen I-WC30-Sa15-NA50 exhibiting a maximum compressive strength of 281 kgf / cm ² in consideration of economic efficiency. The compressive strength is higher than that of I-WC30-Sa15-NA75.

Next, as shown in Figure 4, artificial reef 30 by the general concrete is a recycled aggregate concrete with a compressive strength of 210 kgf / cm ² or more, the general concrete compounding table according to the present invention in Table 3, the general produced in this way The compressive strength, longitudinal velocity, pH, and slump of concrete are shown in Table 4, respectively.

Here, S is unit fine aggregate (natural aggregate), G is unit recycled aggregate (aggregate dimension range 10-25mm).

As shown in Table 3 and Table 4, even in general concrete, the higher the water-cement ratio (W / C) ratio, the lower the compressive strength, and the higher the aggregate aggregate (S / a), the higher the compressive strength. Can be.

At this time, in the case of the general concrete, the case of test specimen II-C450-Sa45 is the optimal compressive strength expression compounding ratio in consideration of economic efficiency.

On the other hand, reinforcing the fiber rod in the artificial reef according to the present invention can prevent the reinforcement of the conventional reinforcing bar exposed to a salty environment, the concrete is destroyed by corrosion, thereby reducing the durability.

Fiber rods used to reinforce artificial reefs include glass fiber rods, carbon + aramid fiber rods, and carbon fiber rods.The diameters of the fiber rods are 3.0 ~ 21mm, yield strength 2400kgf / cm ² or more, tensile strength 6000kgf / It is preferable to have a value of cm ² or more.

Table 5 and Table 6 are tables showing the mixing ratio and the experimental results of the fiber reinforced concrete according to the present invention.

Here, PF (Polypropylene Fiber) is a polypropylene fiber. The reason for using polypropylene fiber is to improve the impact resistance, wear resistance, erosion resistance, and tensile stress of recycled aggregate concrete. S is unit fine aggregate (natural aggregate), G is unit coarse aggregate (recycled aggregate).

As shown in Table 6, in the case of the fiber-reinforced concrete according to the present invention, it was found that the compressive strength increased as the size of fine aggregate fraction (S / a) and the amount of polypropylene fiber added increased. Optimal intensity was expressed in the case of PF10.

As the fiber rod reinforced to artificial reef is made of glass fiber or carbon fiber, it has a strong advantage in the salt water environment of seawater, and it is easy to install because of its light weight, and its yield strength is higher than that of general rebars. It is applicable. In addition, the artificial reef prepared by the fiber-reinforced concrete according to the present invention is certified as having structural stability, as shown in the stress analysis of the concrete and the fiber rod of FIG.

On the other hand, artificial reef (10) manufactured by porous concrete or artificial reef (30) manufactured by general concrete according to the present invention is formed of a hexahedron having a space portion therein, the circular opening 20 for each surface , 40 are formed, respectively.

Thus, since the openings 20 and 40 are formed in a circular shape, the concrete to be poured is smoothly supplied while flowing down the circular openings 20 and 40 and the work is completed by one concrete pouring operation.

As described above, the artificial artificial reef using the recycled aggregate according to the present invention by applying recycled aggregate concrete with a compressive strength of 210kgf / cm ² or more applied to the production of various kinds of artificial reef by recycling waste concrete generated over 10 million tons per year It can work.

The present invention provides an porous concrete having a compressive strength of at least 210 kgf / cm ² and a maximum of 309 kgf / cm ² , thereby facilitating the implantation of algae by the surface roughness.

In addition, the present invention provides a general concrete having a compressive strength of at least 213kgf / cm ² to a maximum of 401kgf / cm ² , there is an effect that can reduce the environmental load using the blast furnace cement.

And the present invention has the effect of improving the impact resistance and durability by mixing a certain amount of fiber rods, such as polypropylene fibers.

The present invention has an effect that can be easily carried out by one concrete pouring operation by forming the openings formed on each side of the cube in a circular shape.

1 is a perspective view of a porous concrete artificial reef according to the prior art.

Figure 2 is a perspective view of a general concrete artificial reef in accordance with the prior art.

Figure 3 is a perspective view of a porous concrete artificial reef according to the present invention.

Figure 4 is a perspective view of a general concrete artificial reef in accordance with the present invention.

Figure 5 is the main compressive stress distribution of artificial reefs applied to the square reef of the prior art.

Figure 6 is a compressive stress distribution of the fiber rod applied to the present invention.

<Explanation of symbols for the main parts of the drawings>

10; Porous concrete artificial reef

20; Opening of Porous Concrete Artificial Reef

30; General Concrete Artificial Reef

40; Opening of Plain Concrete Reef

Claims (8)

In porous concrete artificial reef, Unit weight of cement is 350-450kg / m ³ (water is 25-35% of cement), unit weight of fine aggregate is 166-344kg / m ³ , unit weight of regenerated coarse aggregate is 309-1066kg / m ³ , The unit weight of the natural coarse aggregate is 345 ~ 1181 kg / m ³ , concrete artificial reef using regenerated aggregate, characterized in that the high performance fluidizing agent is composed of less than 1% of the cement weight. The method of claim 1, The recycled coarse aggregate is a composite artificial reef using a recycled aggregate, characterized in that the aggregate between 10 to 25mm aggregate size of one, two, three of the aggregate of KS F 2573. The method of claim 1, The natural coarse aggregate is artificial artificial reef using a recycled aggregate, characterized in that the coarse aggregate between 5 to 15mm. The method of claim 1, Insert the fiber rod of any one of glass fiber rod, carbon + aramid fiber rod and carbon fiber rod to enhance the durability of the artificial reef, the diameter of the fiber rod is 3.0 ~ 21mm, yield strength 2400kgf / cm ² or more, tensile strength Concrete artificial reef using a recycled aggregate, characterized in that having a value of 6000kgf / cm ² . In general concrete artificial reef, Units of the cement weight 400~514kg / m ³ (water is 35-45% of cement), the unit weight of the fine aggregate 485~855kg / m ^3, coarse reproduction unit of the aggregate weight 742~1100kg / m ^3, a high-performance cement fluidizing agent weight Concrete artificial reef using recycled aggregate, characterized in that the mixture is composed of less than 1%. The method of claim 5, The recycled coarse aggregate is a concrete artificial reef using a recycled aggregate, characterized in that the aggregate of 10 ~ 25mm aggregate in one, two, three kinds of aggregates of KS F 2573. The method of claim 5, Insert the fiberglass rod, carbon + aramid fiber rod, and carbon fiber rod to enhance the durability of the artificial reef, the fiber rod diameter is 3.0 ~ 21mm, yield strength 2400kgf / cm ² or more, tensile strength 6000kgf Concrete artificial reef using reclaimed aggregates, characterized in that having a value of / cm ² . delete