JPH0769706A - Adhesive inorganic material - Google Patents

Abstract

PURPOSE:To obtain a lightweight and nonflammable adhesive inorganic material of low bulk density, excellent in dimensional stability to drying-water adsorption cycles, developing no deterioration due to carbon dioxide. CONSTITUTION:This nonflammable adhesive inorganic material resistant to weathering comprises magnesium oxide-magnesium oxy salt cement and fine powder of zeolite or zeolite rock, and as necessary, incorporated with inorganic or organic fibers.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an adhesive inorganic material. More specifically, the present invention is a lightweight, non-combustible, weathering-resistant adhesive useful as an adhesive or surface coating material for inorganic materials and their structures, or wood, foamed plastic materials, and processed metals. It relates to a porous inorganic material.

[0002]

2. Description of the Related Art Conventionally, adhesive inorganic materials have been widely used for bonding inorganic materials, wood, foamed plastics and processed metals. This inorganic material can be roughly classified into three types. First of all, there is a Portland cement adhesive which is a concrete material and has an effect as a filler. However, since this Portland cement-based adhesive is a thin-layer adhesive whose adhesive action is due to crystallization of silicate by the hydration action of neat cement paste, the adhesive action is very small, and further, their curing Since there is a large shrinkage, there is a drawback that peeling occurs due to the occurrence of cracks.

In order to improve these drawbacks, a polymer emulsion or the like is added to try to exert its sizing effect, but practical problems have hardly been solved. Further, in the long term, the material is insufficient as an adhesive because it is powdered by the weathering effect due to carbonation and further causes a halo phenomenon due to an alkali reaction. The second type is one that utilizes the curing phenomenon due to activation on the surface of the metal oxide fine powder. These are used for special purposes, for example, as a heat shielding material for fine powder of electro-fused magnesia, but are generally expensive and are also used as an adhesive for metals such as metal oxide and so-called low-melting glass. However, it is handled as a special adhesive because it must be heated.

Further, as a third type, zinc cement, magnesia-zinc cement and magnesia cement (Sorel cement) are known which utilize the reaction of alkaline earth metal oxides with their oxy salts. Of these, magnesia-zinc-phosphate cement has been demonstrated as a dental material with rapid hardening and large adhesiveness, but its unit cost is high and it is suitable for general use because of its instantaneous hardening property. It has the drawback of not being available. Also,
It has long been known that magnesia cement has strong adhesiveness with inorganic materials and wood, but since it has hygroscopicity, it has the drawback of dew condensation due to the leaching of oxyacid salts and the erosion action of metallic materials. However, it is not generally used and is only partially used as a binder for abrasives.

As described above, all of the conventional adhesive inorganic materials have problems in practical use, and a low cost adhesive inorganic material that is more versatile, lightweight, and has good nonflammability and weather resistance is realized. Was not done. This invention has been made in view of the circumstances as described above, eliminates the disadvantages of conventional adhesive inorganic materials, and in particular, by focusing on the magnesia cement adhesive, its adhesive strength and bending Increases strength and has excellent stability as an inorganic adhesive,
It is intended to provide a new magnesia-zeolite adhesive inorganic material.

[0006]

Means for Solving the Problems The present invention, as a solution to the above-mentioned problems, contains a fine powder of magnesium oxide / magnesium oxysalt cement and zeolite or zeolite rock, and if necessary an inorganic or organic Provided is a non-combustible, weathering-resistant adhesive inorganic material characterized by containing fibers.

[0007]

In other words, the adhesive inorganic material of the present invention completely encapsulates the hygroscopicity, which is a drawback of magnesium oxysalt cement, so that the zeolite [(Ca: Na ₂ :
K _2), adsorptive is characteristic of (Al ₂ Si ₇ O _18)],
Focusing on the ion exchange function and combining it with this action will achieve excellent characteristics.

The zeolite or the zeolite rock containing the zeolite as a main component usually contains 6 to 7 molecules of crystal water,
At a temperature of 300 ° C or lower, the crystal lattice is not destroyed and dehydrated and absorbed. Further, since it has an ion-exchange property due to defects of Si ⁴⁺ , it can seal the hygroscopic property of the magnesium oxysalt and further prevent corrosion of metals. And, the magnesium oxysalt cement constituting the adhesive inorganic material of the present invention contains active magnesia as magnesium oxide, but this active magnesia is highly reactive, and the crystal structure of magnesium hydroxide and magnesium oxysalt produced. Due to the structure of and, the surface greatly affects the adhesive force with other materials. This effect differs depending on the type of magnesium salt that is a raw material of active magnesia, and magnesium oxide (M
Controlling the size of the crystal lattice of gO)
The largest condition is that the size of the crystal lattice should be 5
00 angstroms or less, more preferably 200 to 5
It is preferably 00 angstrom. Under these conditions, a layered structure is generated in a magnesium salt serving as an origin, specifically, for example, a carbonate skeleton, and this achieves an excellent effect.

More specifically, this active magnesia is
It is preferable that the powder is 40 μm or less, has a specific surface area of 20 to 50 m ² / g, and the ratio of magnesium salts to be contained is 5: 1 to 10: 1 with respect to the oxide.
Then, this active magnesia can be added and blended with a lignate salt and a polymer emulsion in an amount of 4% or less, and it is also preferable that the active magnesia be blended in an adhesive material in a proportion of 20 to 80%.

Regarding zeolite, artificial or natural zeolite rock is pulverized to 100 μm or less and powder having a specific surface area of 5 to 30 m ² / g may be added to the adhesive at a ratio of 10 to 50%. preferable. Further, in the present invention, since the increase in plasticity, which is another characteristic of the adhesive inorganic material, is involved in workability and the toughness of the cured adhesive is required, the affinity with magnesia cement is good. Inorganic or organic fibers such as carbon fibers and cellulosic fibers, specifically pulp, cotton, woods, etc., are added in an amount that does not lose incombustibility 4
It is also effective to blend in a proportion of not more than%.

In this case, the carbon fiber is a graphitized carbon fiber having an aspect ratio of 10 or more, while the cellulosic fiber has a length of 0.5 to 3.
Those cut to 0 mm are preferably used. Examples will be shown below to describe the inorganic adhesive material of the present invention in more detail.

[0012]

【Example】Powder mix First, activated magnesia is a powder of 40 μm or less, and has a specific surface.
Product brane value is 25m ²/ G was used. Zeorai
Rock (Otani stone) is a crushed material of less than 100 μm,
Value 10m²/ G of carbon fiber and carbon fiber
Then, the diameter was 8 μm and the length was 5 mm. And this
These were compounded at the compounding ratio shown in Table 1, and the active magnesia-
An Otani stone powder-carbon fiber formulation was prepared.

[0013]

[Table 1]

Preparation of Adhesive and Preparation of Specimen Next, magnesium chloride 2
A 5% solution was mixed with 3% of an acrylic emulsion, 70% by weight of the active magnesia-Otani stone powder-graphite fiber mixture was added, and the mixture was kneaded with a stirring mixer for 10 minutes and then 20 mm x 20 mm x Fill 80mm mold,
It was cured for 24 hours at 20 ° C. After this curing, the mold was removed and dried in air for 3 days to prepare a test body. The results of measuring the physical properties of this test body are shown in Table 2.

[0015]

[Table 2]

The obtained test body had a small bulk specific gravity, was light in weight, shrank by 0.1% or less at the time of measuring physical properties, and had no cracks. An excellent adhesive effect was obtained, and no defects such as those of conventional materials were recognized.

[0017]

As described in detail above, according to the present invention, the bulk specific gravity is small, the dimensional stability is excellent even against changes in drying and water absorption, the strength and weather resistance are improved, and the material is light and has good nonflammability. A low cost adhesive inorganic material is provided.

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Claims (4)

[Claims] 1. A non-combustible, weathering-resistant adhesive characterized by containing magnesium oxide / magnesium oxysalt cement and fine powder of zeolite or zeolite rock, and if necessary inorganic or organic fibers are blended. Inorganic material. 2. A magnesium oxide crystal having an active magnesia having a crystal lattice of 500 angstroms or less, and the active magnesia having a particle size of 40 μm or less, which is 20 to 50 m ^2.
Has a specific surface area of / g, and the ratio of magnesium salts contained is 5: 1 to 10: 1 with respect to the oxide,
20% to 20% of active magnesia to which 4% or less of nignate and polymer emulsion can be added, if necessary.
The inorganic material according to claim 1, which contains 80%. 3. Powder specific surface area of 5 to 30 m obtained by pulverizing zeolite or natural zeolite rock to 100 μm or less.
The inorganic material according to claim 1 or 2, which contains 10% to 50% of ² / g of powder. 4. Graphitized graphite fibers having an aspect ratio of 10 or more, and / or cellulose fibers using natural fibers, the length of which is cut to 0.5 mm to 30 mm. The inorganic material according to claim 1, 2 or 3, which is obtained by mixing 4% or less.