JP2021116211A - Mortar or concrete for marine product, and method of producing mortar or concrete for marine product - Google Patents

Abstract

To provide mortar or concrete for a marine product, not easily affected by a wave or an ocean current and excellent in capability of developing strength at an initial material age, and a method of producing the mortar or concrete for a marine product.SOLUTION: The mortar or concrete for a marine product according to the present invention, is used in a marine product and contains cement, organic-material combustion ash that contains a chloride ion in an amount of 1,000 mg/kg or more, and heavy weight aggregate of a unit volume mass of 3.0 g/cm3 or more.SELECTED DRAWING: None

Description

The present invention relates to mortar or concrete for marine products and a method for producing mortar or concrete for marine products.

Marine products such as fish reef blocks and tetrapods may move or fall under the influence of waves and ocean currents. Therefore, mortar or concrete having a high specific density is used for marine products.

As the mortar or concrete having a high specific density, those containing cement, an aggregate having a high specific density such as iron ore, and fly ash (coal ash) as an admixture are known. For example, in Patent Documents 1 and 2, the viscosity of concrete is improved by including fly ash as an admixture, and as a result, concrete having excellent material separation resistance can be obtained without sedimentation of aggregate having a high specific density. Is disclosed.

Japanese Unexamined Patent Publication No. 9-132442 Japanese Unexamined Patent Publication No. 10-291851

Mortar or concrete is expected to be excellent not only in strength development at long-term age but also in strength development at initial age. By having excellent strength development at the initial age, the curing period can be shortened, and as a result, productivity is improved. However, although mortar or concrete containing fly ash as an admixture has excellent strength development at a long-term age, further improvement is required in terms of strength development at the initial age.

The present invention has been made to solve such a problem, and is mortar or concrete for marine products, which is not easily affected by waves and sea currents and has excellent strength development at the initial age, and the ocean. An object of the present invention is to provide a method for producing mortar or concrete for products.

The mortar or concrete for marine products according to the present invention is a mortar or concrete used for marine products, and has cement, organic material combustion ash having a chloride ion content of 1000 mg / kg or more, and a unit volume mass. Contains a heavy aggregate of 3.0 g / cm ^{3 or more.}

Since the mortar or concrete for marine products contains a heavy aggregate having a unit volume mass of 3.0 g / cm ³ or more, it is not easily affected by waves and ocean currents. Further, since the mortar or concrete for marine products uses the organic material combustion ash and the heavy aggregate in combination, it is excellent in strength development at the initial age.

Further, since the viscosity of the mortar or concrete for marine products is improved by containing the combustion ash of the organic material, the heavy aggregate is not settled and the material separation resistance is excellent.

The marine product mortar or concrete according to the present invention may have a chloride ion content of the organic material combustion ash of 2000 mg / kg or more and 6000 mg / kg or less.

With such a configuration, the marine product mortar or concrete further improves the strength development at the initial age.

In the mortar or concrete for marine products according to the present invention, the organic material combustion ash may be woody biomass ash.

With such a configuration, the marine product mortar or concrete further improves the strength development at the initial age. Further, in the mortar or concrete for marine products, woody biomass ash, which has been conventionally treated as industrial waste, can be reused.

The mortar or concrete for marine products according to the present invention may have a unit organic material combustion ash amount of 200 kg / m ³ or more and 1500 kg / m ³ or less.

With such a configuration, the marine product mortar or concrete further improves the strength development at the initial age.

The mortar or concrete for marine products according to the present invention may have a unit weight aggregate amount of 200 kg / m ³ or more and 1800 kg / m ³ or less.

With such a configuration, the marine product mortar or concrete further improves the strength development at the initial age.

The method for producing mortar or concrete for marine products according to the present invention is the above-mentioned method for producing mortar or concrete for marine products, in which cement and an organic material having a chloride ion content of 1000 mg / kg or more are burned. A kneading step of kneading ash, a heavy aggregate having a unit volume mass of 3.0 g / cm ³ or more, and water to obtain a mortar composition or concrete composition, and the mortar composition or concrete composition. It includes a casting step of placing in a mold and a curing step of curing and curing the cast mortar composition or concrete composition.

With such a configuration, the method for producing a mortar or concrete for marine products can obtain a mortar or concrete for marine products that is not easily affected by waves or ocean currents and has excellent strength development at the initial age.

According to the present invention, it is possible to provide a mortar or concrete for marine products that is not easily affected by waves or ocean currents and has excellent strength development at the initial age, and a method for producing mortar or concrete for marine products. can.

Hereinafter, the mortar or concrete for marine products and the method for producing the mortar or concrete for marine products according to the present invention will be described.

<Mortar or concrete for marine products>
The mortar or concrete for marine products according to the present embodiment includes cement, organic material combustion ash having a chloride ion content of 1000 mg / kg or more, and heavy bone ^{having a unit volume mass of 3.0 g / cm 3 or more.} Contains the material.

(cement)
Examples of cement include ordinary Portland cement, early-strength Portland cement, ultra-early-strength Portland cement, moderate heat Portland cement, sulfate-resistant Portland cement, white Portland cement and other Portland cement specified in JIS R 5210; blast furnace cement, Mixed cement such as fly ash cement and silica cement; known cement such as ultrafast hard cement and alumina cement can be used. Of these, ordinary Portland cement is preferable. As the cement, one type may be used alone, or two or more types may be used in combination.

^{The unit volume mass of cement is preferably 3.0 g / cm 3} or more, and more preferably 3.1 g / cm ³ or more, from the viewpoint of making it less susceptible to the effects of waves and ocean currents. On the other hand, the unit volume mass of cement ^{is preferably 3.4 g / cm 3} or less, and ^{more preferably 3.3 g / cm 3} or less, from the viewpoint of improving material separation resistance.

From the viewpoint of developing strength, the unit cement amount is ^{preferably 100 kg / m 3} or more and 350 kg / m ³ or less, and more preferably 120 kg / m ³ or more and 300 kg / m ³ or less. When two or more types of cement are contained, the unit cement amount is the total amount of cement.

(Organic material combustion ash)
Examples of the organic material combustion ash include woody biomass ash, rice husk ash, paper sludge ash and the like. Among these, the organic material combustion ash is preferably woody biomass ash from the viewpoint of further improving the strength development at the initial age. As the organic material combustion ash, one type may be used alone, or two or more types may be used in combination.

The chloride ion content of the organic material combustion ash is 1000 mg / kg or more. The content of the chloride ion is preferably 2000 mg / kg or more and 6000 mg / kg or less from the viewpoint of further improving the strength development at the initial age.

In the present invention, the chloride ion content of the combustion ash of the organic material corresponds to the chloride ion content of the mortar or concrete. The content of chloride ions contained in mortar or concrete means the value of the chloride ion concentration measured by JIS A 1154 “Test method for chloride ions contained in hardened concrete”. Specifically, the content of chloride ions contained in mortar or concrete is determined by the "suppressor type ion chromatograph method" specified in JIS A 1154 "Test method for chloride ions contained in hardened concrete". Can be measured.

The powderiness of the organic material combustion ash is such that the 45 μm sieving residue measured by the net sieving method (JIS A 6201) is 10% by mass or more and 50% by mass or less from the viewpoint of improving the filling property and the material separation resistance. it is preferable, specific surface area measured by Blaine method (JIS A 6201) is preferably at most 2000 cm ² / g or more 10000 cm ² / g.

The unit volume mass of the organic material combustion ash ^{is preferably 2.0 g / cm 3} or more, and more preferably 2.2 g / cm ³ or more, from the viewpoint of improving the material separation resistance. On the other hand, the unit volume weight of the organic material combustion ash, from the viewpoint of improving the segregation resistance, is preferably 3.5 g / cm ³ or less, more preferably 3.0 g / cm ³ or less.

^{The unit organic material combustion ash amount is preferably 200 kg / m 3} or more and 1500 kg / m ³ or less, and 250 kg / m ³ or more and 1400 kg / m ³ or less, from the viewpoint of further improving the strength development at the initial age. Is more preferable. When two or more kinds of organic material combustion ash are contained, the unit organic material combustion ash amount is the total amount of organic material combustion ash.

(Heavy aggregate)
Examples of the heavy aggregate include copper slag fine aggregate, electric furnace oxidized slag fine aggregate, barite, magnetite and the like. Among these, copper slag fine aggregate is preferable in consideration of affinity with marine organisms. The copper slag fine aggregate is not particularly limited, and the fine aggregate specified in JIS A 5011-3 (Concrete slag aggregate-Part 3: Copper slag aggregate) can be used. The heavy aggregate may be used alone or in combination of two or more.

The unit volume mass of the heavy aggregate is 3.0 g / cm ³ or more. ^{The unit volume mass of the heavy-weight aggregate is preferably 3.2 g / cm 3} or more from the viewpoint of making it less susceptible to the influence of waves and ocean currents, and 4.0 g / cm from the viewpoint of improving the material separation resistance. It is preferably ^{3 or less.}

^{The unit weight aggregate amount is preferably 200 kg / m 3} or more and 1800 kg / m ³ or less, and 250 kg / m ³ or more and 1500 kg / m ³ or less, from the viewpoint of further improving the strength development at the initial age. Is more preferable. When two or more kinds of heavy aggregates are included, the unit weight aggregate amount is the total amount of heavy aggregates.

(Fine aggregate)
The marine product mortar or concrete according to the present embodiment may further contain fine aggregate. The fine aggregate refers to an aggregate that passes through the entire 10 mm mesh sieve and passes through the 5 mm mesh sieve by 85% or more by mass (JIS A 0203: 2014).

Examples of the fine aggregate include river sand, land sand, mountain sand, sea sand, crushed sand, sand derived from natural substances such as limestone crushed sand, blast furnace slag, etc. specified in JIS A 5308 Annex A Readymixed concrete aggregate. Can be mentioned. These fine aggregates may be used alone or in combination of two or more.

^{The unit volume mass of the fine aggregate is preferably 1.9 g / cm 3} or more, and more preferably 2.0 g / cm ³ or more, from the viewpoint of improving the filling property and the material separation resistance. ^{On the other hand, the unit volume mass of the fine aggregate is preferably 3.1 g / cm 3} or less, and more preferably 3.0 g / cm ³ or less, from the viewpoint of improving the filling property and the material separation resistance. preferable.

The unit fine aggregate amount is ^{preferably 150 kg / m 3} or more and 800 kg / m ³ or less, and more preferably 200 kg / m ³ or more and 750 kg / m ³ or less. When two or more kinds of fine aggregates are included, the unit amount of fine aggregates is the total amount of fine aggregates.

(Coarse aggregate)
The concrete for marine products according to the present embodiment may further contain coarse aggregate. The coarse aggregate refers to an aggregate that stays at 85% or more in mass on a 5 mm mesh sieve (JIS A 0203: 2014).

Examples of the coarse aggregate include natural aggregates such as river gravel, mountain gravel and sea gravel, artificial aggregates such as crushed stones such as sandstone, hard limestone, basalt and ansan rock, and recycled aggregates. These may be used alone or in combination of two or more.

The unit coarse aggregate amount is ^{preferably 150 kg / m 3} or more and 1200 kg / m ³ or less, and more preferably 200 kg / m ³ or more and 1000 kg / m ³ or less. When two or more kinds of coarse aggregates are contained, the unit amount of coarse aggregates is the total amount of coarse aggregates.

(water)
The water is not particularly limited, and for example, tap water, industrial water, recovered water, groundwater, river water, rainwater and the like can be used. It is preferable that water does not contain organic substances, chloride ions, sodium ions, potassium ions, etc., which adversely affect the hydration reaction of the concrete composition and the hardened concrete body, or even if it is contained, the amount is extremely small. The water is more preferably tap water or industrial water having stable quality.

The unit water amount is ^{preferably 150 kg / m 3} or more and 450 kg / m ³ or less, and more preferably 160 kg / m ³ or more and 400 kg / m ³ or less.

The ratio of water to cement (water-cement ratio) is preferably 20% by mass or more and 100% by mass or less, and preferably 30% by mass or more and 90% by mass or less, from the viewpoint of improving strength and fluidity. ..

The marine product mortar or concrete according to the present embodiment may further contain an admixture other than the above-mentioned organic material combustion ash. Examples of the admixture include fly ash, silica fumes, cement kiln dust, blast furnace fumes, blast furnace granulated slag fine powder, blast furnace refrigerated slag fine powder, blast furnace slag fine powder, hemihydrate gypsum, expansion material, limestone fine powder, etc. Inorganic fine powder such as fresh lime fine powder, dolomite fine powder, sodium-type bentonite, calcium-type bentonite, attapargite, sepiolite, activated clay, acid clay, allofen, imogolite, shirasu (volcanic ash), shirasu balloon, kaolinite, metakaolin (flying clay) ), Synthetic zeolite, artificial zeolite, artificial zeolite, mordenite, clinoptilolite and other inorganic fillers. As the admixture, one type may be used alone, or two or more types may be used in combination.

When the mortar or concrete for marine products according to the present embodiment contains fly ash as an admixture, the unit amount of fly ash is preferably ^{1400 kg / m 3 or less from the viewpoint of improving the strength at the initial age.} It is more preferably 1200 kg / m ³ or less, and further preferably not containing fly ash.

The marine product mortar or concrete according to the present embodiment may further contain an admixture. Examples of the admixture include an AE agent, an AE water reducing agent, a fluidizing agent, a separation reducing agent, a coagulation retarder (for example, tartaric acid), a coagulation accelerator (for example, aluminum sulfate), a quick-setting agent, and a shrinkage reducing agent. , Foaming agent, foaming agent, waterproofing agent and the like. The admixture may be used alone or in combination of two or more.

The mortar for marine products according to the present embodiment preferably has a unit volume mass of 2.0 g / cm ³ or more from the viewpoint of making it less susceptible to the effects of waves and ocean currents. Further, the concrete for marine products according to the present embodiment preferably has a unit volume mass of 2.6 g / cm ³ or more from the viewpoint of making it less susceptible to the influence of waves and ocean currents. On the other hand, the mortar and concrete for marine products preferably have a unit volume mass of 3.5 g / cm ³ or less from the viewpoint of facilitating production.

The mortar or concrete for marine products according to this embodiment is used for marine products. The marine product is not particularly limited, and examples thereof include a fish reef block and a tetrapod.

Since the mortar or concrete for marine products according to the present embodiment ^{contains a heavy aggregate having a unit volume mass of 3.0 g / cm 3} or more, it is not easily affected by waves and ocean currents. Further, in the mortar or concrete for marine products according to the present embodiment, since the organic material combustion ash having a chloride ion content of 1000 mg / kg or more and the heavy aggregate are used in combination, the strength development at the initial age is exhibited. Excellent for.

Since the viscosity of the mortar or concrete for marine products according to the present embodiment is improved by containing the organic material combustion ash, the heavy aggregate is not settled and the material separation resistance is excellent.

The marine product mortar or concrete according to the present embodiment further improves the strength development at the initial age by having the chloride ion content of the organic material combustion ash of 2000 mg / kg or more and 6000 mg / kg or less. ..

In the mortar or concrete for marine products according to the present embodiment, the strength development at the initial age is further improved because the organic material combustion ash is woody biomass ash. Further, in the mortar or concrete for marine products according to the present embodiment, the woody biomass ash that has been conventionally treated as industrial waste can be reused.

The mortar or concrete for marine products according to the present embodiment has a unit organic material combustion ash amount of 200 kg / m ³ or more and 1500 kg / m ³ or less, so that the strength development at the initial age is further improved.

The marine product mortar or concrete according to the present embodiment has a unit weight aggregate amount of 200 kg / m ³ or more and 1800 kg / m ³ or less, so that the strength development at the initial age is further improved.

<Manufacturing method of mortar or concrete for marine products>
The method for producing mortar or concrete for marine products according to the present embodiment is a method for producing mortar or concrete for marine products according to the present embodiment, in which the content of cement and chloride ions is 1000 mg / kg or more. A kneading step of kneading a certain organic material combustion ash, a heavy aggregate having a unit volume mass of 3.0 g / cm ³ or more, and water to obtain a mortar composition or a concrete composition, and the mortar composition or It includes a casting step of placing the concrete composition in a mold and a curing step of curing and hardening the cast mortar composition or concrete composition.

The method for producing mortar or concrete for marine products according to the present embodiment can obtain mortar or concrete for marine products that is not easily affected by waves or ocean currents and has excellent strength development at the initial age.

Hereinafter, examples of the present invention will be described, but the present invention is not limited to the following examples.

<Test 1> Mortar for marine products (preparation of mortar composition)
Each component shown in Table 1 was kneaded to prepare a mortar composition of each Example and Comparative Example.

Details of each component shown in Table 1 are shown below.
Cement: Ordinary Portland cement, unit volume mass 3.14 g / cm ³ , manufactured by Sumitomo Osaka Cement Co., Ltd. Water: tap water Sea sand: unit volume mass 2.59 g / cm ³ , Shifu Shisan Details of coal ash and woody biomass ash Is shown in Table 2, and the details of the copper slag fine aggregate are shown in Table 3.

(Measurement of unit volume mass)
For each mortar composition, the unit volume mass was measured based on the unit volume mass test method of JIS A 1116 fresh concrete. The results are shown in Table 4.

(Measurement of compressive strength)
For each mortar composition, the compressive strength was measured based on the compressive strength test method of JIS A 1108 concrete. The dimensions of the specimen were 10 cm in diameter and 20 cm in height. Table 4 shows the compressive strengths of 1 day and 28 days of age.

As can be seen from the results in Table 4, the mortar of Example 1 has a larger unit volume mass value than the mortar of Comparative Example 3 in which fine aggregate is contained instead of heavy aggregate. It can be said that it is not easily affected. Further, the mortar of Example 1 is an initial material because an organic material combustion ash having a chloride ion content of 1000 mg / kg or more and a heavy aggregate having a ^{unit volume mass of 3.0 g / cm 3 or more are used in combination.} Excellent strength development at age.

On the other hand, the mortars of Comparative Examples 1 and 2 are inferior in strength at the initial age because they do not contain organic material combustion ash having a chloride ion content of 1000 mg / kg or more. Further, since the mortar of Comparative Example 3 ^{does not contain heavy aggregate having a unit mass of 3.0 g / cm 3} or more, the unit is compared with the mortar of Example 1 containing heavy aggregate instead of fine aggregate. Since the value of volumetric mass is small, it can be said that it is easily affected by waves and sea currents.

<Test 2> Concrete for marine products (preparation of concrete composition)
Each component shown in Table 5 was kneaded to prepare concrete compositions of each Example and Comparative Example.

Details of each component shown in Table 5 are shown below.
Cement: Ordinary Portland cement, unit volume mass 3.14 g / cm ³ , manufactured by Sumitomo Osaka Cement Co., Ltd. Water: tap water River sand: unit volume mass 2.62 g / cm ³ , Nosugawa crushed stone: unit volume mass 2.71 g / cm ^3. Made in Hyogo Prefecture The same coal ash, woody biomass ash and copper slag fine aggregate were used as in Test 1.

The unit volume mass and compressive strength were measured by the same method as in Test 1. The results are shown in Table 6.

As can be seen from the results in Table 6, the concrete of Example 2 has a larger unit volume mass value than the concrete of Comparative Example 6 containing fine aggregate instead of heavy aggregate. It can be said that it is not easily affected. Further, the concrete of Example 2 is an initial material because an organic material combustion ash having a chloride ion content of 1000 mg / kg or more and a heavy aggregate having a ^{unit volume mass of 3.0 g / cm 3 or more are used in combination.} Excellent strength development at age.

On the other hand, the concretes of Comparative Examples 4 and 5 are inferior in strength at the initial age because they do not contain organic material combustion ash having a chloride ion content of 1000 mg / kg or more. Further, since the concrete of Comparative Example 6 ^{does not contain a heavy aggregate having a unit mass of 3.0 g / cm 3} or more, the unit is compared with the concrete of Example 1 containing a heavy aggregate instead of the fine aggregate. Since the value of volumetric mass is small, it can be said that it is easily affected by waves and sea currents.

Claims (6)

Mortar or concrete used in marine products
With cement
Organic material combustion ash with a chloride ion content of 1000 mg / kg or more,
Heavy-duty aggregate with a unit volume mass of 3.0 g / cm ^{3 or more,}
Mortar or concrete for marine products containing. The mortar or concrete for marine products according to claim 1, wherein the content of chloride ions in the organic material combustion ash is 2000 mg / kg or more and 6000 mg / kg or less. The mortar or concrete for marine products according to claim 1 or 2, wherein the organic material combustion ash is woody biomass ash. The mortar or concrete for marine products according to any one of claims 1 to ³ , wherein the unit organic material combustion ash amount is 200 kg / m 3 or more and 1500 kg / m ^{3 or less.} The mortar or concrete for marine products according to any one of claims 1 to 4, wherein the unit weight aggregate amount is 200 kg / m ³ or more and 1800 kg / m ^{3 or less.} The method for producing a mortar or concrete for marine products according to any one of claims 1 to 5.
A mortar composition obtained by kneading cement, organic material combustion ash having a chloride ion content of 1000 mg / kg or more, heavy aggregate having a ^{unit volume mass of 3.0 g / cm 3 or more, and water.} Or the kneading process to obtain the concrete composition,
The casting process of placing the mortar composition or concrete composition in the formwork, and
A curing process in which the cast mortar composition or concrete composition is cured and cured, and
A method for producing mortar or concrete for marine products, including.