JP4567211B2 - Expandable material and cement composition - Google Patents

Description

【００２５】
【表２】

【００２６】
表２から明らかなように、本発明の膨張材を使用したコンクリートは、いずれも優れた膨張特性を示し、ポップアウトの発生が認められない。
【００２７】
実施例２
表１の膨張材Ｄ１００部中、表３に示す量の水酸化カルシウムの膨張材を調整して使用したこと以外は、実施例１と同様に行った。結果を表３に併記する。
【００２８】
【表３】

【００２９】
表３から明らかなように、本発明の水酸化カルシウム量が１〜１５部の膨張材を混和したコンクリートは、ポップアウトの発生が無く、優れた膨張特性を示す。
【００３０】
実施例３
セメントと膨張材からなるセメント組成物１００部中、表４に示す量の膨張材を使用したこと以外は、実施例１と同様に行った。結果を表４に併記する。
【００３１】
【表４】

【００３２】
表４から明らかなように、本発明の膨張材の使用量が増加するにつれコンクリートは優れた膨張特性を示す。
【００３３】
【発明の効果】
本発明の膨張材及びそれを含有したセメント組成物を使用することにより、コンクリートは施工後のポップアウトが無く、優れた膨張特性を示す。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an expansion material and a cement composition that are mainly used in the field of civil engineering and construction and do not cause pop-out or partial abnormal expansion in concrete after construction.
The concrete referred to in the present invention is a general term for cement paste, mortar, and concrete.
[0002]
[Prior art]
Reduction of cracks in cement and concrete and improvement of bending strength are important from the viewpoint of reliability, durability, aesthetics, etc. of concrete structures, and further development of expansion materials that are effective in improving these is desired. Yes.
Conventionally, as an expansion material which gives expansibility to cement and concrete, for example, a free lime-auin-anhydrous gypsum-based expansion material (Japanese Patent Publication No. 42-21840) or a free lime-calcium silicate-anhydrous gypsum-based expansion material (Japanese Patent Publication No. 53-31170).
[0003]
[Problems to be solved by the invention]
However, when a conventional expansion material is added to mortar or concrete using a raw plant or on-site mixer, if the expansion material is not sufficiently dispersed during kneading, a conical shape due to expansion failure under the surface of the concrete called pop-out In some cases, a peeling phenomenon may occur, which not only deteriorates the performance of the concrete, but also causes a problem that the peeling portion may fall.
In addition, recently, the transition from the conventional specification-based design system to the performance-based design system has been studied, and a clear performance rule has been established for the durability of concrete that has been neglected until now, It is considered that the effect of cracking on durability is quantified. Therefore, crack reduction is an important issue, but in order to make extensive use of inflatables that are effective in reducing cracks, it is essential to use inflatables that have low expansion and low expansion cost and excellent expansion characteristics. is there.
As a result of repeating various studies to solve these problems, the present inventors have obtained the knowledge that the problems can be solved by using a specific expansion material, and have completed the present invention. .
[0004]
[Means for Solving the Problems]
That is, the present invention includes a CaO material, a CaSO ₄ material, a inflation material obtained by heat-treating Al ₂ O ₃ raw material, and the Fe ₂ O ₃ raw material, the free lime, anhydrous gypsum, calcium aluminosilicate expanding material in 100 parts of free lime amount comprising the ferrite is composed mainly of 35% to 60% of the expanded material, a expandable material amount of calcium hydroxide, characterized in that 1 to 15 parts, A cement composition comprising cement and the expansion material.
In addition, the part and% which show the mixture ratio used by this invention are a mass unit.
[0005]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in more detail.
[0006]
The swelling substance in the present invention contains free lime, anhydrous gypsum, and one or more selected from calcium aluminoferrite, calcium ferrite, Auin and calcium silicate (hereinafter referred to as hydraulic compound). In 100 parts of the expanded material, 35-60 parts of free lime is preferable, and 40-55 parts is more preferable. Moreover, 10-40 parts is preferable and, as for a hydraulic compound, 15-30 parts is more preferable. Further, the anhydrous gypsum is preferably 10 to 40 parts, more preferably 20 to 35 parts. The proportions of calcium aluminoferrite, calcium ferrite, auin and calcium silicate in the hydraulic compound are not particularly limited.
[0007]
Impurities are present in the expansion material of the present invention. Specific examples thereof include MgO, TiO ₂ , P ₂ O ₅ , Na ₂ O, K ₂ O, chlorine, fluorine and the like, but there is no particular problem as long as the object of the present invention is not substantially inhibited. .
[0008]
The hydraulic compound of the present invention will be described below.
The calcium aluminoferrite of the present invention is a generic term for CaO—Al ₂ O ₃ —Fe ₂ O ₃ compounds and is not particularly limited, but in general, CaO is C, Al ₂ O _3. When A is Fe and O is Fe ₂ O ₃ , examples of the compound are C ₄ AF and C ₆ A ₂ F. Normally, it is considered that C ₄ AF exists, and in the present invention, calcium aluminoferrite is hereinafter referred to as C ₄ AF.
The calcium ferrite of the present invention is a generic term for CaO—Fe ₂ O ₃ compounds and is not particularly limited. Generally, when CaO is C and Fe ₂ O ₃ is F, C ₂ Compounds such as F and CF are well known. In the present invention, it is preferable to use C ₂ F because the expansion characteristics are good. In the present invention, calcium ferrite is hereinafter referred to as C ₂ F.
The Auin of the present invention refers to a compound represented by 3CaO.3Al ₂ O ₃ .CaSO ₄ .
The calcium silicate of the present invention is a generic term for CaO—SiO ₂ compounds and is not particularly limited. Generally, when CaO is C and SiO ₂ is S, C ₃ S or C ₂ Compounds such as S are known.
[0009]
When producing the expandable material of the present invention, the CaO raw material, the CaSO ₄ raw material, one or two or more selected from the Al ₂ O ₃ raw material, the Fe ₂ O ₃ raw material and the SiO ₂ raw material are heat-treated and released. A swelling material composed of lime, a hydraulic compound and anhydrous gypsum is synthesized and pulverized. When the free lime, hydraulic compound and anhydrous gypsum are synthesized separately, and those obtained by pulverizing and mixing these are used, the effect of the present invention cannot be obtained.
CaO raw material, CaSO ₄ raw material, one or more selected from Al ₂ O ₃ raw material, Fe ₂ O ₃ raw material and SiO ₂ raw material are heat-treated, and consist of free lime, hydraulic compound and anhydrous gypsum As a method for confirming whether or not the expansion material is synthesized and pulverized, for example, coarse particles in the expansion material, specifically, particles larger than 100 μm are observed with a microscope or the like. It can be easily discriminated by conducting a compositional analysis and confirming that free lime, a hydraulic compound and anhydrous gypsum are mixed in the particles.
[0010]
Fineness of expanding material is preferably one of 1500~7000cm ² / g in Blaine specific surface area, it is more preferred 2000~4000cm ² / g. If the fineness of the expansion material is less than 1500 cm ² / g, the long-term durability of the concrete structure may deteriorate, and if it exceeds 7000 cm ² / g, sufficient expansion characteristics may not be obtained.
[0011]
Although it is the heat processing temperature at the time of manufacturing the expansion | swelling substance of this invention, the range of 1100-1600 degreeC is preferable and the range of 1200-1500 degreeC is more preferable. If it is less than 1100 degreeC, the expansion | swelling characteristic of the obtained expansion | swelling material is not enough, and when it exceeds 1600 degreeC, anhydrous gypsum may decompose | disassemble.
[0012]
Examples of the CaO raw material include limestone and slaked lime. Examples of the Al ₂ O ₃ raw material include bauxite and aluminum residual ash. Examples of the Fe ₂ O ₃ raw material include copper calami, iron powder, and commercially available iron oxide. Examples of the SiO ₂ raw material include silica and clay, and examples of the CaSO ₄ raw material include dihydrate gypsum, half water gypsum, and anhydrous gypsum.
[0013]
In the present invention, in order to prevent pop-out, the most important thing is the amount of calcium hydroxide contained in the expansion material, and when this small amount of expansion material is mixed with concrete, it becomes a lump without being sufficiently dispersed. , Partial abnormal expansion may occur after construction, causing cracks and pop-outs.
The amount of calcium hydroxide is preferably 1 to 15 parts, more preferably 1.5 to 10 parts, and further preferably 2 to 5 parts in 100 parts of the expansion material. If it is less than 1 part, the effect of preventing pop-out is poor, and if it exceeds 15 parts, the amount of expansion decreases, which is not preferable.
[0014]
The method for adjusting the amount of calcium hydroxide in the expansion material of the present invention is not particularly limited, but water and / or calcium hydroxide so that a predetermined amount can be obtained during and / or after pulverization of the expansion material. And the like, and a method of absorbing moisture in the air by leaving it for a long time. When water is added, the amount of water used varies depending on the type of pulverizer.
Further, diethylene glycol or trialkanolamines can be used in combination as a grinding aid during grinding. The content of calcium hydroxide in the expansion material can be quantified by DSC, TG-DTA, IR, FT-IR, X-ray diffraction, chemical analysis, and the like.
[0015]
Although the usage-amount of the expansion material of this invention is not specifically limited, 3-12 parts of expansion materials are preferable in 100 parts of cement compositions which consist of a cement and an expansion material, and 4-8 parts are more preferable. When the amount of the expansion material of the present invention is outside this range, the effects of the present invention, that is, excellent expansion characteristics may not be obtained. If it is less than 3 parts, excellent expansion characteristics may not be obtained, and if it is used in excess of 12 parts, strength development may be reduced.
[0016]
The cement composition of the present invention includes various portland cements specified in JIS R 5210, various mixed cements specified in JIS R 5211, JIS R 5212, and JIS R 5213, and the mixing ratio of admixtures more than those specified in JIS. One or more of blast furnace cement, fly ash cement and silica cement, filler cement mixed with limestone powder, etc., and alumina cement, etc., prepared by the above, and the expansion material of the present invention It is.
The cement composition of the present invention can be used as a cement paste as it is, as well as mixed with aggregates and used as mortar or concrete.
[0017]
In the present invention, in addition to aggregates such as sand and gravel as cement and expansion material, setting accelerator, setting retarder, dextrin, water reducing agent, AE water reducing agent, high performance AE water reducing agent, AE agent, thickener, cement One or two or more of hardened materials, rust inhibitors, polymer emulsions, clay minerals such as bentonite and montmorillonite, and inorganic phosphates are used in a range that does not substantially impair the object of the present invention. Is possible.
[0018]
Any existing stirring device can be used as a mixing device used when producing concrete, mortar, or the like using the expanding material of the present invention. For example, a tilting mixer, an omni mixer, a V-type mixer, a Henschel mixer, A Nauta-mixer or the like can be used. In mixing, the respective materials may be mixed at the time of construction, or a part or all of them may be mixed in advance. The mixing order is not particularly limited.
[0019]
【Example】
Hereinafter, the present invention will be described in detail by way of examples.
[0020]
Example 1
Mixing CaO raw material, CaSO ₄ raw material, one or more selected from Al ₂ O ₃ raw material, Fe ₂ O ₃ raw material and SiO ₂ raw material, and heat-treating at 1400 ° C. using an electric furnace Thus, expansion materials having various compositions A to T shown in Table 1 (ratio of each component in a total of 100 parts) were produced.
[0021]
A predetermined amount of water was added to the expanded material and pulverized by a ball mill to prepare an expanded material having a Blaine specific surface area of 3500 ± 200 cm ² / g and a calcium hydroxide amount of 3 parts in 100 parts of the expanded material. 6 parts of expansive material is used for 100 parts of cement composition consisting of cement and expansive material, unit cement composition amount is 310 kg / m ³ , water / cement composition ratio = 55%, s / a = 44%, water reduction Concrete was prepared by adding 1% of the agent to the cement, and the length change rate of 7 days of age and the pop-out test were performed. Moreover, it tested by the same expansion | swelling material usage-amount also about the commercially available expansion | swelling material.
The results are shown in Table 2.
[0022]
<Materials used>
Cement: Commercial ordinary Portland cement CaO raw material: Reagent primary calcium carbonate Al ₂ O ₃ raw material: Reagent primary alumina Fe ₂ O ₃ raw material: Reagent primary ferric oxide SiO ₂ raw material: Reagent primary silicon oxide CaSO ₄ raw material: Reagent primary secondary water Gypsum sand: Himekawa, Niigata Prefecture, specific gravity 2.62, FM value 2.86
Gravel: Niigata prefecture Himekawa production, specific gravity 2.64
Water: tap water reducing agent: polycarboxylic acid, commercially available expansion material (1): calcium sulfoaluminate-based expansion material, commercial expansion material (2): lime-based expansion material, commercial product
<Measurement method>
Length change rate: Measured according to JIS A 6202 B Pop-out test: Concrete is prepared in advance using materials other than expansive material, and this concrete is put into a tilting mixer, and the mixer is run at a speed of 12 revolutions / minute. The expansion material was post-added while agitating, discharged 10 minutes later, and placed in a mold having a length of 1 m, a width of 50 cm, and a height of 10 cm, and a pop-out phenomenon was observed.
[0024]
[Table 1]

[0025]
[Table 2]

[0026]
As is clear from Table 2, the concrete using the expansion material of the present invention exhibits excellent expansion characteristics and no occurrence of pop-out is recognized.
[0027]
Example 2
The same procedure as in Example 1 was carried out except that the amount of the calcium hydroxide expansion material shown in Table 3 was adjusted and used in 100 parts of the expansion material D in Table 1. The results are also shown in Table 3.
[0028]
[Table 3]

[0029]
As is apparent from Table 3, the concrete mixed with the expansion material having an amount of calcium hydroxide of 1 to 15 parts according to the present invention does not cause pop-out and exhibits excellent expansion characteristics.
[0030]
Example 3
The same procedure as in Example 1 was carried out except that 100 parts of a cement composition composed of cement and an expanding material was used in the amount shown in Table 4. The results are also shown in Table 4.
[0031]
[Table 4]

[0032]
As is apparent from Table 4, the concrete exhibits excellent expansion properties as the amount of the expansion material of the present invention increases.
[0033]
【The invention's effect】
By using the expansion material of the present invention and the cement composition containing the same, the concrete has no pop-out after construction and exhibits excellent expansion characteristics.

Claims (2)

And CaO material, a CaSO ₄ material, a inflation material obtained by heat-treating Al ₂ O ₃ raw material, and the Fe ₂ O ₃ raw material, the free lime, and anhydrous gypsum, containing calcium aluminosilicate Blow wells An expanding material characterized in that the amount of calcium hydroxide is 1 to 15 parts in 100 parts of an expanding material whose main component is an expanding material whose amount of free lime is 35 to 60%.   A cement composition comprising cement and the expansion material according to claim 1.