JP2005289722A - Super-quick hardening cement composition - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a super-quick hardening cement composition which has a high flow property to insure the inflow into details even in 20 minutes after kneading when a cement composition containing a super-quick hardening cement, a fine aggregate, and a water-reducing agent of a melamine and polycarboxylic acid ether system is placed under a low temperature at the time of grouting and can develop a prescribed strength in a short time of 2 hours. <P>SOLUTION: The super-quick hardening composition contains the super-quick hardening cement, the chemical admixture and the fine aggregate, wherein the SO<SB>3</SB>/Al<SB>2</SB>O<SB>3</SB>(the molar ratio) of the super-quick hardening cement is 1.0 to 1.3. The chemical admixture is the polycarboxylic acid ether-based water-reducing agent and/or the melamine-based water-reducing agent and contains the water-reducing agent at a ratio of 0.01 to 3wt% and contains the fine aggregate at 35 to 80wt%. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a super-hard cement composition, and more particularly, super-fast which exhibits high fluidity even after 20 minutes of kneading at low temperature in cement milk and mortar, and exhibits short-term high strength in its setting for 2 hours. The present invention relates to a hard cement composition.

When grout material is used for void filling in repair work on concrete structures such as railways, roads, and airports, it is necessary to extremely shorten the time from traffic interruption to opening.
The physical properties required for such a grout material are: (1) high fluidity within a predetermined working time can be ensured in order to ensure that a gap is not formed in the gap, and (2) as much as possible. Two points, such as developing strength in a short time, are the most important.
In order to solve such a fluidity problem of cement mortar, conventionally, a water reducing agent is used as a chemical admixture. As such a water reducing agent, naphthalene sulfonate-based or lignin sulfonate-based water reducing agent is used, and the water reducing agent is mixed in cement mortar to improve fluidity without increasing the unit water amount, or fluidity. The amount of unit water is reduced without lowering water.
However, naphthalene sulfonate-based and lignin sulfonate-based water reducing agents are highly temperature dependent, their activity deteriorates at low temperatures, and the unit water volume must be increased to maintain fluidity. It has the disadvantage that the strength deteriorates for a short time. In order to make up for such short-time strength, it is known that when the unit cement amount of the ultrafast cement amount is increased, the fluidity is deteriorated.

On the other hand, until now, when a super-fast hard cement mainly composed of 11CaO · 7Al ₂ O ₃ · CaX ₂ (where X represents a halogen element) and a melamine or polycarboxylic water reducing agent are used in combination, immediately after kneading. It is said that the fluidity deteriorates, the workability becomes difficult, and the use is difficult.
In addition, when using a polycarboxylic acid-based water reducing agent in normal Portland cement,
While it is known that the water / cement ratio can be considerably reduced even with a low addition amount, and high fluidity can be maintained, polycarboxylic acid-based water reducing agents are highly temperature-dependent and can be used at high temperatures such as under hot summer. It is difficult to maintain fluidity for a long time in the environment, and excessive water reduction occurs in a low-temperature environment such as outdoors in a severe winter season, and material separation and bleeding are likely to occur.
Furthermore, it generally has a drawback that the hydration reaction is delayed and has a setting delaying action, and the strength for a short time of curing is reduced as compared with the case of using a naphthalenesulfonic acid-based water reducing agent.

  In view of this point, Japanese Patent Application Laid-Open No. 2003-321263 discloses an amount that dissolves with temperature by using a specific monomeric alkali metal and / or alkaline earth metal salt in combination with a polycarboxylic acid-based water reducing agent. Prevents the active ingredient of water reducing agent, which has a considerable difference in speed and speed, from dissolving and reacting during and after construction, does not cause excessive water reduction, and stabilizes the properties of the cement-containing kneaded material for a long time. In particular, a hydraulic composition is disclosed. Specifically, (A) a polycarboxylic acid-based water reducing agent, (B) cement, and (C) an alkali metal salt of a carboxylic acid monomer having a molecular weight of 100 or less, and A hydraulic composition comprising an alkaline earth metal salt of a carboxylic acid monomer having a molecular weight of 100 or less has been proposed.

  Furthermore, JP 2004-002080 A proposes the combined use of a water reducing agent and a hardening accelerator, specifically from cement, fine aggregate, water reducing agent, expansion material, inorganic fine powder and foaming substance. In the composition, the blending amount of the water reducing agent is 0.05 to 4 parts by mass with respect to 100 parts by mass of the cement, and 10 to 30 parts by mass of the melamine sulfonate-based water reducing agent in 100 parts by mass of the water reducing agent. A cement-type grout composition is disclosed, wherein the sulfonate-based water reducing agent is 55 to 85 parts by mass and the lignin sulfonate-based water reducing agent is 5 to 20 parts by mass.

  However, the conventional hydraulic composition has many materials to be added, is complicated, and therefore is not economically cheap, and further has strength (particularly after 2 hours) when using a super-hard cement. Furthermore, both functions of fluidity and fluidity cannot be fully expressed at low temperatures.

It is an object of the present invention to ensure a detailed inflow even after 20 minutes after kneading in a cement composition containing a super fast cement, fine aggregate, melamine-based and polycarboxylic acid ether-based water reducing agent at low temperature when filling with grout. It is an object of the present invention to provide a super-hard cement composition that has a high fluidity and can exhibit a predetermined strength in a short time of 2 hours.
The purpose of the present invention is to improve the initial strength (especially after 2 hours) by using a water reducing agent without using many raw materials when using ultrafast cement at a low temperature, and ensure workability. Therefore, it is an object to provide an economically inexpensive super-hard setting cement composition having high fluidity.

The present inventors have found that the above problem can be achieved by including a specific water reducing agent in a specific ratio in a fine aggregate when using ultrafast cement, and have reached the present invention.
The superfast-hardening cement composition of the present invention includes a superfast-hardening cement, a chemical admixture and a fine aggregate, and the superfast-hardening cement has an SO ₃ / Al ₂ O ₃ (molar ratio) of 1.0 to 1.3, The agent is a polycarboxylic acid ether water reducing agent and / or a melamine water reducing agent, and contains the water reducing agent in a proportion of 0.01 to 3% by weight and 35 to 80% by weight of the fine aggregate. It is characterized by that.
Preferably, in the super-hard setting cement composition of the present invention, the main component of the super-hard setting cement is 11CaO · 7Al ₂ O ₃ · CaX ₂ (where X represents a halogen element).
Moreover, the super-fast-hardening cement composition of the present invention is characterized by further containing an antifoaming agent in addition to the above components.

  The super fast-hardening cement composition of the present invention has high fluidity that ensures detailed inflow when grout filling at low temperature, and can express a predetermined strength in a short time, and can be used for railways, roads, It can be used effectively for gap filling in repair work of concrete structures such as airports.

The present invention is illustrated by the following preferred examples, but is not limited thereto.
The superfast-hardening cement composition of the present invention includes a superfast-hardening cement, a chemical admixture and a fine aggregate, and the superfast-hardening cement has an SO ₃ / Al ₂ O ₃ (molar ratio) of 1.0 to 1.3, The agent is a polycarboxylic acid ether water reducing agent and / or a melamine water reducing agent, and contains the water reducing agent in a proportion of 0.01 to 3% by weight and 35 to 80% by weight of the fine aggregate. Is.
With this configuration, high fluidity can be maintained even 20 minutes after kneading at a low temperature, for example, 5 ° C., and short-term high strength can be achieved even after 2 hours.

Ultrarapid hardening cement used for ultrarapid hardening cement compositions of the present invention, _{preferably, 11CaO · 7Al 2 O 3 ·} CaX 2 ( where, X represents a halogen element) is mainly composed of, such ingredients By using the super-hard setting cement as the main component, the effects of the present invention can be expressed more satisfactorily in the blending with the following water reducing agent.
It said _{11CaO · 7Al 2 O 3 · CaX} 2 ( where, X represents a halogen element) As a component other _{than, 3CaO · SiO 2, 2CaO ·} SiO 2, 4CaO · Al 2 O 3 · Fe 2 O 3, CaSO 4 And the like.

Further, such ultrarapid hardening cement, the _{SO 3} / _Al 2 _O 3 (molar ratio) is 1.0 to 1.3, preferably preferably 1.0 to 1.2, this _SO 3 / Al _{This is because if the 2} O ₃ (molar ratio) is within the above range, the initial strength development at low temperatures, particularly the strength development after 2 hours after kneading, will be excellent.

  In addition, the chemical admixture used in the super fast-hardening cement of the present invention includes a polycarboxylic acid ether water reducing agent and / or a melamine water reducing agent in a ratio of 0.01 to 3% by weight in the super-hard hardening cement composition. included. In the present invention, by containing such a specific water reducing agent in a specific ratio, the fluidity of the cement mortar at a low temperature is improved, and short-term strength is achieved for 2 hours after kneading without increasing water. Is also effective.

  Water reducing agents for these chemical admixtures include melamine water reducing agents such as modified methylol melamine condensate and water-soluble special polymer compound, sulfonated melamine high condensate, polycarboxylic acid ether complex, polycarboxylic acid Complex of ether and cross-linked polymer, complex of polycarboxylic acid ether and alignment polymer, polyether carboxylic acid polymer, maleic acid copolymer, maleic acid ester copolymer, maleic acid ester copolymer, Polycarboxylic acids such as carboxyl group-containing polyethers, polycarboxylic acid group-containing multi-component polymers having terminal sulfone groups, polycarboxylic acid-based graft copolymers, polycarboxylic acid compounds, polycarboxylic acids and modified lignins, polycarboxylic acid ether polymers It can be selected from acid based water reducing agents, etc. It can be used in.

  The amount of the polycarboxylic acid ether water reducing agent and / or the melamine water reducing agent contained in the super fast hardening cement composition of the present invention is 0.01 to 3% by weight in the super fast hardening cement composition, In the case of a melamine water reducing agent, it is preferably 0.1 to 1% by weight, and in the case of a polycarboxylic acid water reducing agent, it is preferably 0.03 to 0.5% by weight. If the content of the water reducing agent is less than 0.01%, both the effect of improving fluidity for 20 minutes after kneading at low temperature and the short-term strength development for 2 hours are insufficient, and it exceeds 3% by weight. Both the short-term strength and the long-term strength of the resulting mortar are insufficient.

In addition, the fine aggregate used in the super fast-hardening cement composition of the present invention is a fine aggregate, such as river sand, mountain sand, land sand, crushed sand, sea sand, silica sand Nos. 6 to 7 and the like. Fine aggregate can be used. In particular, those containing silica sand as a main component and containing crushed sand such as limestone and andesite, blast furnace slag crushed sand, ferronickel slag crushed sand, etc. In combination with the above, the super fast-hardening cement composition of the present invention can effectively exhibit both the effect of improving fluidity for 20 minutes after kneading and the effect of developing short-term strength for 2 hours. Can do.
The content of these fine aggregates is usually preferably from 35 to 80% by weight, more preferably from 40 to 65% by weight, in the super fast-hardening cement composition. This is because if the content of the super-hard setting cement is outside the above range, physical properties such as high fluidity of 20 minutes after kneading as a grout material of the cement composition obtained at low temperature and short-term strength of 2 hours are insufficient. Because it becomes.

The super fast-hardening cement composition of the present invention can further contain an antifoaming agent. Examples of the antifoaming agent include silicone resin antifoaming agents (Adecanate B-211F manufactured by Asahi Denka Kogyo Co., Ltd.).
Such an antifoaming agent has a function of removing entrapped air and preventing strength reduction.
In the case of containing an antifoaming agent, the effect of the antifoaming agent is 0.001 to 0.5% by weight in the super-hard setting cement composition, and the content of 0.03 to 0.2% by weight, It is preferable from an economical viewpoint.

  If necessary, in the present invention, known additives such as shrinkage retarders, polymer emulsions, and setting retarders can be used within a range that does not substantially impair the object of the present invention.

  The super fast-hardening cement composition of the present invention includes the fast-hardening cement, polycarboxylic acid ether water reducing agent and / or melamine water reducing agent, fine aggregate, antifoaming agent added as necessary, and other additives. Can be prepared by mixing predetermined amounts of each. There are no limitations on the mixing conditions and the type of the mixer, and the respective materials may be mixed and used at the time of construction, or some or all of them may be mixed in advance. As the mixing device, any existing device can be used. For example, a conventional mixer such as an omni mixer, a Henschel mixer, a night mixer, a tilting mixer or the like, a hand mixer, a pot mill, or the like can be used.

  In order to produce a desired grout material from the super-hard setting cement composition of the present invention, water and an additive such as a retarder are kneaded into a slurry to prepare a cement mortar. This can be obtained by pouring and filling a desired mold or frame and curing. For the kneading and filling, the same means and the like as those used in the conventional super-hard setting cement composition may be used. In general, the kneading is performed at 0 to 35 ° C., but the present invention performs kneading at 0 to 15 ° C. and controls the curing reaction time to a desired time from the viewpoint of short-term high strength development and high fluidity at low temperatures. For this, the temperature of the kneading water and the addition amount of a retarder or the like to be added as necessary may be adjusted as appropriate, and when preparing a grout material, the amount of cement mortar to be prepared is If the amount is small, a hand mixer may be used.

  The amount of kneading water used for kneading can be changed depending on the type and blending of the materials to be used, so it is not uniquely determined. Usually, the water / cement ratio is 20 to 200%. 30 to 160% is particularly preferable. By blending water in such a range, sufficient workability and sufficient strength development will be obtained.

As described above, the super-hard cement composition of the present invention exhibits extremely good fluidity when kneaded with water and hardened, and can develop a short-term strength very rapidly. That is, the fluidity after 20 minutes from the start of kneading is the PC grout fluidity, which is the standard value when expressed by the JA funnel sulfidation time of the Japan Society of Civil Engineers standard PC grout fluidity test method (JSCE-F 531-1999). It is below, and it is usually 11-15 seconds. Moreover, the short-term strength developability for 2 hours has a reference value of 2.0 N / mm ² or more when expressed by a value measured by a concrete compression test method (JIS A 1108-1999).

The present invention will be described in more detail with reference to the following examples, comparative examples and test examples.
(Examples 1-5 and Comparative Examples 1-7)
In each of Examples 1 to 5 and Comparative Examples 1 to 7, the following components were mixed in the blending amounts shown in Table 1 to prepare super-hard cement compositions.
(1) Super hard cement 11CaO · 7Al ₂ O ₃ · CaF ₂ as the main component · SO ₃ / Al ₂ O ₃ (molar ratio) 1.2; Product name: Jet cement Sumitomo Osaka Cement Co., Ltd. · SO ₃ / _Al 2 _{O 3} (molar _{ratio) 1.0; (3CaO · SiO 2} 51~55% 2CaO · SiO 2 1.6~1.9,11CaO · 7Al 2 O 3 · CaF 2 20~23%, 4CaO・ Al ₂ O ₃ .Fe ₂ O ₃ 4 to 6% CaSO ₄ 15 to 20%)
_{· SO 3 / Al 2 O 3} ( molar _{ratio) 0.8; (3CaO · SiO 2} 52~56% 2CaO · SiO 2 1.7~1.9,11CaO · 7Al 2 O 3 · CaF 2 21~24% 4CaO.Al ₂ O ₃ .Fe ₂ O ₃ 4-6% CaSO ₄ 9-11%)
_{· SO 3 / Al 2 O 3} ( molar _{ratio) 1.4; (3CaO · SiO 2} 48~52% 2CaO · SiO 2 1.5~1.8,11CaO · 7Al 2 O 3 · CaF 2 18~22% 4CaO.Al ₂ O ₃ .Fe ₂ O ₃ 3-5% CaSO ₄ 17-22%)
(2) Silica sand with a fine aggregate average particle size of 90μm (Nippon Mining)
(3) Water-reducing agent Naphthalenesulfonic acid-based water-reducing agent (Product name: Mighty 100 manufactured by Kao Corporation)
Melamine-based water reducing agent (Product name: Siment FF86 / 100 manufactured by Nihon Seika Co., Ltd.)
Polycarboxylic acid ether water reducing agent (Product name: Mighty 21P, manufactured by Kao Corporation)
(4) Accelerator sodium aluminate (manufactured by Taiyo Co., Ltd.)
(5) Antifoaming agent Adecanate B-211F (Asahi Denka Kogyo Co., Ltd.)

(Test Examples 1 and 2)
The cement mortar obtained by kneading 130 parts by weight of water at the test temperature shown in Table 1 with respect to 100 parts by weight of the ultrafast cement composition obtained in Examples 1 to 5 and Comparative Examples 1 to 7, After 20 minutes from the start of kneading, it was subjected to a fluidity test, and 2 hours after the start of kneading, each of the obtained cured products was subjected to a strength test. The obtained results are shown in Table 2.
However, the fluidity test is indicated by the JA funnel sulfidation time of the Japan Society of Civil Engineers standard PC grout fluidity test method (JSCE-F 531-1999), and the strength test is measured by a concrete compression test (JIS A 1108-1999). This is expressed as a result.

As shown in Table 1, the super fast-hardening cement compositions in Examples 1 to 5 of the present invention showed good fluidity with a JA funnel flow time of 15 seconds or less even after 20 minutes of kneading, and 2 hours of kneading. Later, good compressive strength of ² N / mm ² or more as a quality standard was exhibited, and short-term strength development was good. In Comparative Examples 1 and 2, curing was already started because the temperature was too high, and the flow-down time after 20 minutes of kneading could not be measured. In Comparative Example 3, since it was not cured, the compressive strength could not be measured for 2 hours. In Comparative Example 4, since sodium aluminate was used, the fluidity 20 minutes after kneading was poor.
In Comparative Example 5, the SO ₃ / Al ₂ O ₃ (molar ratio) was too low, so the fluidity after 20 minutes was poor, and the 2-hour compressive strength was also below the standard value.
In Comparative Example 6, since the SO ₃ / Al ₂ O ₃ (molar ratio) was too high, the compression strength for 2 hours was considerably lowered.
In Comparative Example 7, the amount of fine aggregate was small and the amount of cement was too large, so the fluidity after 20 minutes was poor.

Since the super fast-hardening cement composition of the present invention has the above-described effects, when a grout material is used for filling a gap, the time from the blocking of traffic to the opening in the repair work of concrete structures such as railways, roads, airports, etc. Can be made extremely short, and therefore can be effectively applied.

Claims (3)

Super-hard setting cement, chemical admixture and fine aggregate are included, SO ₃ / Al ₂ O ₃ (molar ratio) of the super-hard setting cement is 1.0 to 1.3, and the chemical admixture is polycarboxylic acid ether water-reducing water Super-hardness, characterized in that it is an agent and / or a melamine-based water reducing agent, containing the water reducing agent in a proportion of 0.01 to 3% by weight and containing 35 to 80% by weight of the fine aggregate. Cement composition. The super-fast-hardening cement composition according to claim 1, wherein the main component of the super-fast-hardening cement is 11CaO · 7Al ₂ O ₃ · CaX ₂ (where X represents a halogen element). Composition. The super fast-hardening cement composition according to claim 1 or 2, further comprising an antifoaming agent.